the jensen-pólya program for the riemann hypothesis and...
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Hyperbolicity of Jensen polynomials
The Jensen-Pólya Program for theRiemann Hypothesis and Related
Problems
Ken Ono (U of Virginia)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 2: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/2.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Riemann’s zeta-function
Definition (Riemann)
For Re(s) > 1, define the zeta-function by
ζ(s) :=
∞∑n=1
1
ns.
Theorem (Fundamental Theorem)1 The function ζ(s) has an analytic continuation to C (apart
from a simple pole at s = 1 with residue 1).
2 We have the functional equation
ζ(s) = 2sπs−1 sin(πs
2
)Γ(1− s) · ζ(1− s).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 3: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/3.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Riemann’s zeta-function
Definition (Riemann)
For Re(s) > 1, define the zeta-function by
ζ(s) :=
∞∑n=1
1
ns.
Theorem (Fundamental Theorem)1 The function ζ(s) has an analytic continuation to C (apart
from a simple pole at s = 1 with residue 1).
2 We have the functional equation
ζ(s) = 2sπs−1 sin(πs
2
)Γ(1− s) · ζ(1− s).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 4: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/4.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Riemann’s zeta-function
Definition (Riemann)
For Re(s) > 1, define the zeta-function by
ζ(s) :=
∞∑n=1
1
ns.
Theorem (Fundamental Theorem)1 The function ζ(s) has an analytic continuation to C (apart
from a simple pole at s = 1 with residue 1).
2 We have the functional equation
ζ(s) = 2sπs−1 sin(πs
2
)Γ(1− s) · ζ(1− s).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 5: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/5.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Hilbert’s 8th Problem
Conjecture (Riemann Hypothesis)
Apart from negative evens, the zeros of ζ(s) satisfy Re(s) = 12 .
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 6: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/6.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Hilbert’s 8th Problem
Conjecture (Riemann Hypothesis)
Apart from negative evens, the zeros of ζ(s) satisfy Re(s) = 12 .
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 7: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/7.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Important Remarks
Fact (Riemann’s Motivation)
Proposed RH because of Gauss’ Conjecture that π(X) ∼ XlogX .
What is known?1 The first “gazillion” zeros satisfy RH (van de Lune, Odlyzko).
2 > 41% of zeros satisfy RH (Selberg, Levinson, Conrey,... ).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 8: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/8.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Important Remarks
Fact (Riemann’s Motivation)
Proposed RH because of Gauss’ Conjecture that π(X) ∼ XlogX .
What is known?1 The first “gazillion” zeros satisfy RH (van de Lune, Odlyzko).
2 > 41% of zeros satisfy RH (Selberg, Levinson, Conrey,... ).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 9: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/9.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Important Remarks
Fact (Riemann’s Motivation)
Proposed RH because of Gauss’ Conjecture that π(X) ∼ XlogX .
What is known?1 The first “gazillion” zeros satisfy RH (van de Lune, Odlyzko).
2 > 41% of zeros satisfy RH (Selberg, Levinson, Conrey,... ).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 10: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/10.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen-Pólya Program
J. W. L. Jensen George Pólya(1859−1925) (1887−1985)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsIntroduction
Jensen-Pólya Program
DefinitionThe Riemann Xi-function is the entire function
Ξ(z) :=1
2
(−z2 − 1
4
)πiz2− 1
4 Γ
(− iz
2+
1
4
)ζ
(−iz +
1
2
).
RemarkRH is true ⇐⇒ all of the zeros of Ξ(z) are purely real.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 12: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/12.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen-Pólya Program
DefinitionThe Riemann Xi-function is the entire function
Ξ(z) :=1
2
(−z2 − 1
4
)πiz2− 1
4 Γ
(− iz
2+
1
4
)ζ
(−iz +
1
2
).
RemarkRH is true ⇐⇒ all of the zeros of Ξ(z) are purely real.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 13: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/13.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Roots of Deg 100 Taylor Poly for Ξ(
12 + z
)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 14: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/14.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Roots of Deg 200 Taylor Poly for Ξ(
12 + z
)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 15: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/15.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Roots of Deg 400 Taylor Poly for Ξ(
12 + z
)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 16: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/16.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Takeaway about Taylor Polynomials
Red points are good approximations of zeros of Ξ(12 + z
).
The “spurious” blue points are annoying.
As d→ +∞ the spurious points become more prevalent.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 17: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/17.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Takeaway about Taylor Polynomials
Red points are good approximations of zeros of Ξ(12 + z
).
The “spurious” blue points are annoying.
As d→ +∞ the spurious points become more prevalent.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 18: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/18.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Takeaway about Taylor Polynomials
Red points are good approximations of zeros of Ξ(12 + z
).
The “spurious” blue points are annoying.
As d→ +∞ the spurious points become more prevalent.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 19: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/19.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen Polynomials
Definition (Jensen)
The degree d and shift n Jensen polynomial for anarithmetic function a : N 7→ R is
Jd,na (X) :=
d∑j=0
a(n+ j)
(dj
)Xj
= a(n+ d)Xd + a(n+ d− 1)dXd−1 + · · ·+ a(n).
DefinitionA polynomial f ∈ R[X] is hyperbolic if all of its roots are real.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 20: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/20.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen Polynomials
Definition (Jensen)
The degree d and shift n Jensen polynomial for anarithmetic function a : N 7→ R is
Jd,na (X) :=
d∑j=0
a(n+ j)
(dj
)Xj
= a(n+ d)Xd + a(n+ d− 1)dXd−1 + · · ·+ a(n).
DefinitionA polynomial f ∈ R[X] is hyperbolic if all of its roots are real.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 21: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/21.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen’s Criterion
Theorem (Jensen-Pólya (1927))
If Λ(s) := π−s/2Γ(s/2)ζ(s) = Λ(1− s),
then define γ(n) by
(−1 + 4z2
)Λ
(1
2+ z
)=∞∑n=0
γ(n)
n!· z2n.
RH is equivalent to the hyperbolicity of all of the Jd,nγ (X).
What was known?The hyperbolicity for all n is known for d ≤ 3 by work ofCsordas, Norfolk and Varga, and Dimitrov and Lucas.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 22: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/22.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen’s Criterion
Theorem (Jensen-Pólya (1927))
If Λ(s) := π−s/2Γ(s/2)ζ(s) = Λ(1− s), then define γ(n) by
(−1 + 4z2
)Λ
(1
2+ z
)=
∞∑n=0
γ(n)
n!· z2n.
RH is equivalent to the hyperbolicity of all of the Jd,nγ (X).
What was known?The hyperbolicity for all n is known for d ≤ 3 by work ofCsordas, Norfolk and Varga, and Dimitrov and Lucas.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 23: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/23.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen’s Criterion
Theorem (Jensen-Pólya (1927))
If Λ(s) := π−s/2Γ(s/2)ζ(s) = Λ(1− s), then define γ(n) by
(−1 + 4z2
)Λ
(1
2+ z
)=
∞∑n=0
γ(n)
n!· z2n.
RH is equivalent to the hyperbolicity of all of the Jd,nγ (X).
What was known?The hyperbolicity for all n is known for d ≤ 3 by work ofCsordas, Norfolk and Varga, and Dimitrov and Lucas.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 24: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/24.jpg)
Hyperbolicity of Jensen polynomialsIntroduction
Jensen’s Criterion
Theorem (Jensen-Pólya (1927))
If Λ(s) := π−s/2Γ(s/2)ζ(s) = Λ(1− s), then define γ(n) by
(−1 + 4z2
)Λ
(1
2+ z
)=
∞∑n=0
γ(n)
n!· z2n.
RH is equivalent to the hyperbolicity of all of the Jd,nγ (X).
What was known?The hyperbolicity for all n is known for d ≤ 3 by work ofCsordas, Norfolk and Varga, and Dimitrov and Lucas.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 25: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/25.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
New Theorems
“Theorem 1” (Griffin, O, Rolen, Zagier)
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 26: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/26.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
New Theorems
“Theorem 1” (Griffin, O, Rolen, Zagier)
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.
In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 27: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/27.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
New Theorems
“Theorem 1” (Griffin, O, Rolen, Zagier)
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 28: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/28.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
New Theorems
“Theorem 1” (Griffin, O, Rolen, Zagier)
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 29: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/29.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Some Remarks
Remarks1 Offers new evidence for RH.
2 We “locate” the real zeros of the Jd,nγ (X).
3 Wagner has extended the 1st theorem to other L-functions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 30: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/30.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Some Remarks
Remarks1 Offers new evidence for RH.
2 We “locate” the real zeros of the Jd,nγ (X).
3 Wagner has extended the 1st theorem to other L-functions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 31: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/31.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Some Remarks
Remarks1 Offers new evidence for RH.
2 We “locate” the real zeros of the Jd,nγ (X).
3 Wagner has extended the 1st theorem to other L-functions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 32: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/32.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Hermite Polynomials
DefinitionThe (modified) Hermite polynomials
{Hd(X) : d ≥ 0}
are the orthogonal polynomials with respect to µ(X) := e−X2
4 .
Example (The first few Hermite polynomials)
H0(X) = 1
H1(X) = X
H2(X) = X2 − 2
H3(X) = X3 − 6X
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 33: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/33.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Hermite Polynomials
DefinitionThe (modified) Hermite polynomials
{Hd(X) : d ≥ 0}
are the orthogonal polynomials with respect to µ(X) := e−X2
4 .
Example (The first few Hermite polynomials)
H0(X) = 1
H1(X) = X
H2(X) = X2 − 2
H3(X) = X3 − 6X
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 34: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/34.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Hermite Polynomials
LemmaThe Hermite polynomials satisfy:
1 Each Hd(X) is hyperbolic with d distinct roots.
2 If Sd denotes the “suitably normalized” zeros of Hd(X), then
Sd −→ Wigner’s Semicircle Law.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Hermite Polynomials
LemmaThe Hermite polynomials satisfy:
1 Each Hd(X) is hyperbolic with d distinct roots.
2 If Sd denotes the “suitably normalized” zeros of Hd(X), then
Sd −→ Wigner’s Semicircle Law.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Hermite Polynomials
LemmaThe Hermite polynomials satisfy:
1 Each Hd(X) is hyperbolic with d distinct roots.
2 If Sd denotes the “suitably normalized” zeros of Hd(X), then
Sd −→ Wigner’s Semicircle Law.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 37: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/37.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
RH Criterion and Hermite Polynomials
Theorem 1 (Griffin, O, Rolen, Zagier)
The renormalized Jensen polynomials Jd,nγ (X) satisfy
limn→+∞
Jd,nγ (X) = Hd(X).
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
RH Criterion and Hermite Polynomials
Theorem 1 (Griffin, O, Rolen, Zagier)
The renormalized Jensen polynomials Jd,nγ (X) satisfy
limn→+∞
Jd,nγ (X) = Hd(X).
For each d at most finitely many Jd,nγ (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 39: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/39.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Degree 3 Normalized Jensen polynomials
n J 3,nγ (X)
100 ≈ 0.9769X3 + 0.7570X2 − 5.8690X − 1.2661200 ≈ 0.9872X3 + 0.5625X2 − 5.9153X − 0.9159300 ≈ 0.9911X3 + 0.4705X2 − 5.9374X − 0.7580400 ≈ 0.9931X3 + 0.4136X2 − 5.9501X − 0.6623...
...108 ≈ 0.9999X3 + 0.0009X2 − 5.9999X − 0.0014...
...∞ H3(X) = X3 − 6X
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Random Matrix Model Predictions
Freeman Dyson Hugh Montgomery Andrew Odlyzko
Gaussian Unitary Ensemble (GUE) (1970s)
The nontrivial zeros of ζ(s) appear to be “distributed like” theeigenvalues of random Hermitian matrices.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Random Matrix Model Predictions
Freeman Dyson Hugh Montgomery Andrew Odlyzko
Gaussian Unitary Ensemble (GUE) (1970s)
The nontrivial zeros of ζ(s) appear to be “distributed like” theeigenvalues of random Hermitian matrices.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 42: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/42.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Relation to our work
“Theorem” (Griffin, O, Rolen, Zagier)
GUE holds for Riemann’s ζ(s) in derivative aspect.
Sketch of Proof
1 The Jd,nγ (X) model the zeros of the nth derivative Ξ(n)(X).2 The derivatives are predicted to satisfy GUE.3 For fixed d, we proved that
limn→+∞
Jd,nγ (X) = Hd(X).
4 The zeros of the {Hd(X)} and the eigenvalues in GUE bothsatisfy Wigner’s Semicircle Distribution.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 43: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/43.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Relation to our work
“Theorem” (Griffin, O, Rolen, Zagier)
GUE holds for Riemann’s ζ(s) in derivative aspect.
Sketch of Proof
1 The Jd,nγ (X) model the zeros of the nth derivative Ξ(n)(X).
2 The derivatives are predicted to satisfy GUE.3 For fixed d, we proved that
limn→+∞
Jd,nγ (X) = Hd(X).
4 The zeros of the {Hd(X)} and the eigenvalues in GUE bothsatisfy Wigner’s Semicircle Distribution.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 44: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/44.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Relation to our work
“Theorem” (Griffin, O, Rolen, Zagier)
GUE holds for Riemann’s ζ(s) in derivative aspect.
Sketch of Proof
1 The Jd,nγ (X) model the zeros of the nth derivative Ξ(n)(X).2 The derivatives are predicted to satisfy GUE.
3 For fixed d, we proved that
limn→+∞
Jd,nγ (X) = Hd(X).
4 The zeros of the {Hd(X)} and the eigenvalues in GUE bothsatisfy Wigner’s Semicircle Distribution.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 45: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/45.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Relation to our work
“Theorem” (Griffin, O, Rolen, Zagier)
GUE holds for Riemann’s ζ(s) in derivative aspect.
Sketch of Proof
1 The Jd,nγ (X) model the zeros of the nth derivative Ξ(n)(X).2 The derivatives are predicted to satisfy GUE.3 For fixed d, we proved that
limn→+∞
Jd,nγ (X) = Hd(X).
4 The zeros of the {Hd(X)} and the eigenvalues in GUE bothsatisfy Wigner’s Semicircle Distribution.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 46: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/46.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Relation to our work
“Theorem” (Griffin, O, Rolen, Zagier)
GUE holds for Riemann’s ζ(s) in derivative aspect.
Sketch of Proof
1 The Jd,nγ (X) model the zeros of the nth derivative Ξ(n)(X).2 The derivatives are predicted to satisfy GUE.3 For fixed d, we proved that
limn→+∞
Jd,nγ (X) = Hd(X).
4 The zeros of the {Hd(X)} and the eigenvalues in GUE bothsatisfy Wigner’s Semicircle Distribution.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 47: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/47.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Computing derivatives Is not Easy
Theorem (Pustylnikov (2001), Coffey (2009))
As n→ +∞, we have
Remarks1 Derivatives essentially drop to 0 for “small” n before
exhibiting exponential growth.
2 This is insufficient for approximating Jd,nγ (X).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Computing derivatives Is not Easy
Theorem (Pustylnikov (2001), Coffey (2009))
As n→ +∞, we have
Remarks1 Derivatives essentially drop to 0 for “small” n before
exhibiting exponential growth.
2 This is insufficient for approximating Jd,nγ (X).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 49: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/49.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Computing derivatives Is not Easy
Theorem (Pustylnikov (2001), Coffey (2009))
As n→ +∞, we have
Remarks1 Derivatives essentially drop to 0 for “small” n before
exhibiting exponential growth.
2 This is insufficient for approximating Jd,nγ (X).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 50: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/50.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
First 10 Taylor coefficients of Ξ(x)
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics for Ξ(2n)(0)
Notation
1 We let θ0(t) :=∑∞
k=1 e−πk2t,
and define
F (n) :=
∫ ∞1
(log t)n t−3/4 θ0(t) dt.
2 Following Riemann, we have
Ξ(n)(0) = (−1)n/2 ·32(n2
)F (n− 2)− F (n)
2n+2
3 Let L = L(n) ≈ log(
nlogn
)be the unique positive solution of
the equation n = L · (πeL + 34).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics for Ξ(2n)(0)
Notation
1 We let θ0(t) :=∑∞
k=1 e−πk2t, and define
F (n) :=
∫ ∞1
(log t)n t−3/4 θ0(t) dt.
2 Following Riemann, we have
Ξ(n)(0) = (−1)n/2 ·32(n2
)F (n− 2)− F (n)
2n+2
3 Let L = L(n) ≈ log(
nlogn
)be the unique positive solution of
the equation n = L · (πeL + 34).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 53: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/53.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics for Ξ(2n)(0)
Notation
1 We let θ0(t) :=∑∞
k=1 e−πk2t, and define
F (n) :=
∫ ∞1
(log t)n t−3/4 θ0(t) dt.
2 Following Riemann, we have
Ξ(n)(0) = (−1)n/2 ·32(n2
)F (n− 2)− F (n)
2n+2
3 Let L = L(n) ≈ log(
nlogn
)be the unique positive solution of
the equation n = L · (πeL + 34).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 54: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/54.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics for Ξ(2n)(0)
Notation
1 We let θ0(t) :=∑∞
k=1 e−πk2t, and define
F (n) :=
∫ ∞1
(log t)n t−3/4 θ0(t) dt.
2 Following Riemann, we have
Ξ(n)(0) = (−1)n/2 ·32(n2
)F (n− 2)− F (n)
2n+2
3 Let L = L(n) ≈ log(
nlogn
)be the unique positive solution of
the equation n = L · (πeL + 34).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 55: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/55.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics
Theorem (Griffin, O, Rolen, Zagier)
To all orders, as n→ +∞, there are bk ∈ Q(L) such that
F (n) ∼√
2πLn+1√
(1 + L)n− 34L
2eL/4−n/L+3/4
(1+
b1n
+b2n2
+· · ·),
where b1 = 2L4+9L3+16L2+6L+224 (L+1)3
.
Remarks1 Using two terms (i.e. b1) suffices for our RH application.2 Analysis + Computer =⇒ hyperbolicity for d ≤ 1020.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics
Theorem (Griffin, O, Rolen, Zagier)
To all orders, as n→ +∞, there are bk ∈ Q(L) such that
F (n) ∼√
2πLn+1√
(1 + L)n− 34L
2eL/4−n/L+3/4
(1+
b1n
+b2n2
+· · ·),
where b1 = 2L4+9L3+16L2+6L+224 (L+1)3
.
Remarks1 Using two terms (i.e. b1) suffices for our RH application.
2 Analysis + Computer =⇒ hyperbolicity for d ≤ 1020.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 57: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/57.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Arbitrary precision asymptotics
Theorem (Griffin, O, Rolen, Zagier)
To all orders, as n→ +∞, there are bk ∈ Q(L) such that
F (n) ∼√
2πLn+1√
(1 + L)n− 34L
2eL/4−n/L+3/4
(1+
b1n
+b2n2
+· · ·),
where b1 = 2L4+9L3+16L2+6L+224 (L+1)3
.
Remarks1 Using two terms (i.e. b1) suffices for our RH application.2 Analysis + Computer =⇒ hyperbolicity for d ≤ 1020.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 58: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/58.jpg)
Hyperbolicity of Jensen polynomialsOur Results on RH
Example: γ(n) := two-term approximation
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
How do these asymptotics imply Theorem 1?
Theorem 1 is an example of a general phenomenon!
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsOur Results on RH
How do these asymptotics imply Theorem 1?
Theorem 1 is an example of a general phenomenon!
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 61: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/61.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Hyperbolic Polynomials in Mathematics
RemarkHyperbolicity of “generating polynomials” is studied inenumerative combinatorics in connection with log-concavity
a(n)2 ≥ a(n− 1)a(n+ 1).
Group theory (lattice subgroup enumeration)
Graph theory
Symmetric functions
Additive number theory (partitions)
. . .
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsHermite Distributions
Hyperbolic Polynomials in Mathematics
RemarkHyperbolicity of “generating polynomials” is studied inenumerative combinatorics in connection with log-concavity
a(n)2 ≥ a(n− 1)a(n+ 1).
Group theory (lattice subgroup enumeration)
Graph theory
Symmetric functions
Additive number theory (partitions)
. . .
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 63: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/63.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Appropriate Growth
DefinitionA real sequence a(n) has appropriate growth if
a(n+ j) ∼ a(n) eA(n) j−δ(n)2j2 (n→ +∞)
for each j for real sequences {A(n)} and {δ(n)} → 0.
What do we mean?For fixed d and 0 ≤ j ≤ d, as n→ +∞ we have
log
(a(n+ j)
a(n)
)= A(n)j − δ(n)2j2 +
d∑i=0
oi,d(δ(n)i)ji + Od
(δ(n)d+1
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 64: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/64.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Appropriate Growth
DefinitionA real sequence a(n) has appropriate growth if
a(n+ j) ∼ a(n) eA(n) j−δ(n)2j2 (n→ +∞)
for each j for real sequences {A(n)} and {δ(n)} → 0.
What do we mean?For fixed d and 0 ≤ j ≤ d, as n→ +∞ we have
log
(a(n+ j)
a(n)
)= A(n)j − δ(n)2j2 +
d∑i=0
oi,d(δ(n)i)ji + Od
(δ(n)d+1
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 65: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/65.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Appropriate Growth
DefinitionA real sequence a(n) has appropriate growth if
a(n+ j) ∼ a(n) eA(n) j−δ(n)2j2 (n→ +∞)
for each j for real sequences {A(n)} and {δ(n)} → 0.
What do we mean?For fixed d and 0 ≤ j ≤ d, as n→ +∞ we have
log
(a(n+ j)
a(n)
)= A(n)j − δ(n)2j2 +
d∑i=0
oi,d(δ(n)i)ji + Od
(δ(n)d+1
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 66: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/66.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Appropriate Growth
DefinitionA real sequence a(n) has appropriate growth if
a(n+ j) ∼ a(n) eA(n) j−δ(n)2j2 (n→ +∞)
for each j for real sequences {A(n)} and {δ(n)} → 0.
What do we mean?For fixed d and 0 ≤ j ≤ d, as n→ +∞ we have
log
(a(n+ j)
a(n)
)= A(n)j − δ(n)2j2 +
d∑i=0
oi,d(δ(n)i)ji + Od
(δ(n)d+1
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 67: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/67.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
General Theorem
DefinitionIf a(n) has appropriate growth, then the renormalized Jensenpolynomials are defined by
Jd,na (X) :=1
a(n) · δ(n)d· Jd,na
(δ(n)X − 1
exp(A(n))
).
General Theorem (Griffin, O, Rolen, Zagier)
Suppose that a(n) has appropriate growth.For each degree d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 68: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/68.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
General Theorem
DefinitionIf a(n) has appropriate growth, then the renormalized Jensenpolynomials are defined by
Jd,na (X) :=1
a(n) · δ(n)d· Jd,na
(δ(n)X − 1
exp(A(n))
).
General Theorem (Griffin, O, Rolen, Zagier)
Suppose that a(n) has appropriate growth.
For each degree d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 69: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/69.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
General Theorem
DefinitionIf a(n) has appropriate growth, then the renormalized Jensenpolynomials are defined by
Jd,na (X) :=1
a(n) · δ(n)d· Jd,na
(δ(n)X − 1
exp(A(n))
).
General Theorem (Griffin, O, Rolen, Zagier)
Suppose that a(n) has appropriate growth.For each degree d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 70: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/70.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
General Theorem
DefinitionIf a(n) has appropriate growth, then the renormalized Jensenpolynomials are defined by
Jd,na (X) :=1
a(n) · δ(n)d· Jd,na
(δ(n)X − 1
exp(A(n))
).
General Theorem (Griffin, O, Rolen, Zagier)
Suppose that a(n) has appropriate growth.For each degree d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 71: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/71.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Motivation for our work
DefinitionA partition is any nonincreasing sequence of integers.
p(n) := #partitions of size n.
ExampleWe have that p(4) = 5 because the partitions of 4 are
4, 3 + 1, 2 + 2, 2 + 1 + 1, 1 + 1 + 1 + 1.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Motivation for our work
DefinitionA partition is any nonincreasing sequence of integers.
p(n) := #partitions of size n.
ExampleWe have that p(4) = 5 because the partitions of 4 are
4, 3 + 1, 2 + 2, 2 + 1 + 1, 1 + 1 + 1 + 1.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 73: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/73.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Motivation for our work
DefinitionA partition is any nonincreasing sequence of integers.
p(n) := #partitions of size n.
ExampleWe have that p(4) = 5 because the partitions of 4 are
4, 3 + 1, 2 + 2, 2 + 1 + 1, 1 + 1 + 1 + 1.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 74: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/74.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Log concavity of p(n)
Example
The roots of the quadratic J2,np (X) are
−p(n+ 1)±√p(n+ 1)2 − p(n)p(n+ 2)
p(n+ 2).
It is hyperbolic if and only if p(n+ 1)2 > p(n)p(n+ 2).
Theorem (Nicolas (1978), DeSalvo and Pak (2013))
If n ≥ 25, then J2,np (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 75: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/75.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Log concavity of p(n)
Example
The roots of the quadratic J2,np (X) are
−p(n+ 1)±√p(n+ 1)2 − p(n)p(n+ 2)
p(n+ 2).
It is hyperbolic if and only if p(n+ 1)2 > p(n)p(n+ 2).
Theorem (Nicolas (1978), DeSalvo and Pak (2013))
If n ≥ 25, then J2,np (X) is hyperbolic.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 76: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/76.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Chen’s Conjecture
Theorem (Chen, Jia, Wang (2017))
If n ≥ 94, then J3,np (X) is hyperbolic.
Conjecture (Chen)
There is an N(d) where Jd,np (X) is hyperbolic for all n ≥ N(d).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 77: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/77.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Chen’s Conjecture
Theorem (Chen, Jia, Wang (2017))
If n ≥ 94, then J3,np (X) is hyperbolic.
Conjecture (Chen)
There is an N(d) where Jd,np (X) is hyperbolic for all n ≥ N(d).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 78: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/78.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Chen’s Conjecture
Theorem (Chen, Jia, Wang (2017))
If n ≥ 94, then J3,np (X) is hyperbolic.
Conjecture (Chen)
There is an N(d) where Jd,np (X) is hyperbolic for all n ≥ N(d).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 79: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/79.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Our result
Theorem 2 (Griffin, O, Rolen, Zagier)
Chen’s Conjecture is true.
Remarks1 The proof can be refined case-by-case to prove the
minimality of the claimed N(d) (Larson, Wagner).
2 This is a consequence of the General Theorem.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 80: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/80.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Our result
Theorem 2 (Griffin, O, Rolen, Zagier)
Chen’s Conjecture is true.
Remarks1 The proof can be refined case-by-case to prove the
minimality of the claimed N(d) (Larson, Wagner).
2 This is a consequence of the General Theorem.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 81: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/81.jpg)
Hyperbolicity of Jensen polynomialsHermite Distributions
Another Application
Our result
Theorem 2 (Griffin, O, Rolen, Zagier)
Chen’s Conjecture is true.
Remarks1 The proof can be refined case-by-case to prove the
minimality of the claimed N(d) (Larson, Wagner).
2 This is a consequence of the General Theorem.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 82: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/82.jpg)
Hyperbolicity of Jensen polynomialsApplications to modular forms
Modular forms
DefinitionA weight k weakly holomorphic modular form is a function f on Hsatisfying:
1 For all ( a bc d ) ∈ SL2(Z) we have
f
(aτ + b
cτ + d
)= (cτ + d)kf(τ).
2 The poles of f (if any) are at the cusp ∞.
Example (Partition Generating Function)We have the weight −1/2 modular form
f(τ) =
∞∑n=0
p(n)e2πiτ(n−124
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 83: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/83.jpg)
Hyperbolicity of Jensen polynomialsApplications to modular forms
Modular forms
DefinitionA weight k weakly holomorphic modular form is a function f on Hsatisfying:
1 For all ( a bc d ) ∈ SL2(Z) we have
f
(aτ + b
cτ + d
)= (cτ + d)kf(τ).
2 The poles of f (if any) are at the cusp ∞.
Example (Partition Generating Function)We have the weight −1/2 modular form
f(τ) =
∞∑n=0
p(n)e2πiτ(n−124
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 84: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/84.jpg)
Hyperbolicity of Jensen polynomialsApplications to modular forms
Modular forms
DefinitionA weight k weakly holomorphic modular form is a function f on Hsatisfying:
1 For all ( a bc d ) ∈ SL2(Z) we have
f
(aτ + b
cτ + d
)= (cτ + d)kf(τ).
2 The poles of f (if any) are at the cusp ∞.
Example (Partition Generating Function)We have the weight −1/2 modular form
f(τ) =
∞∑n=0
p(n)e2πiτ(n−124
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 85: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/85.jpg)
Hyperbolicity of Jensen polynomialsApplications to modular forms
Modular forms
DefinitionA weight k weakly holomorphic modular form is a function f on Hsatisfying:
1 For all ( a bc d ) ∈ SL2(Z) we have
f
(aτ + b
cτ + d
)= (cτ + d)kf(τ).
2 The poles of f (if any) are at the cusp ∞.
Example (Partition Generating Function)We have the weight −1/2 modular form
f(τ) =∞∑n=0
p(n)e2πiτ(n−124
).
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 86: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/86.jpg)
Hyperbolicity of Jensen polynomialsApplications to modular forms
Jensen polynomials for modular forms
Theorem 3 (Griffin, O, Rolen, Zagier)
Let f be a weakly holomorphic modular form on SL2(Z) withreal coefficients and a pole at i∞. Then for each degree d ≥ 1
limn→+∞
Jd,naf (X) = Hd(X).
For each d at most finitely many Jd,naf (X) are not hyperbolic.
Sketch of Proof. Sufficient asymptotics are known for af (n)in terms of Kloosterman sums and Bessel functions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsApplications to modular forms
Jensen polynomials for modular forms
Theorem 3 (Griffin, O, Rolen, Zagier)
Let f be a weakly holomorphic modular form on SL2(Z) withreal coefficients and a pole at i∞. Then for each degree d ≥ 1
limn→+∞
Jd,naf (X) = Hd(X).
For each d at most finitely many Jd,naf (X) are not hyperbolic.
Sketch of Proof. Sufficient asymptotics are known for af (n)in terms of Kloosterman sums and Bessel functions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 88: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/88.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Natural Questions
QuestionWhat is special about the Hermite polynomials?
QuestionIs there an even more general theorem?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 89: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/89.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Natural Questions
QuestionWhat is special about the Hermite polynomials?
QuestionIs there an even more general theorem?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 90: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/90.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Hermite Polynomial Generating Function
Lemma (Generating Function)
We have that
e−t2+Xt =:
∞∑d=0
Hd(X) · td
d!= 1 +X · t+ (X2 − 2) · t
2
2+ . . .
RemarkThe rough idea of the proof is to show for large fixed n that
∞∑d=0
Jd,na (X) · td
d!≈ e−t2+Xt = e−t
2 · eXt.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 91: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/91.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Hermite Polynomial Generating Function
Lemma (Generating Function)
We have that
e−t2+Xt =:
∞∑d=0
Hd(X) · td
d!= 1 +X · t+ (X2 − 2) · t
2
2+ . . .
RemarkThe rough idea of the proof is to show for large fixed n that
∞∑d=0
Jd,na (X) · td
d!≈ e−t2+Xt = e−t
2 · eXt.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 92: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/92.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 93: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/93.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 94: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/94.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 95: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/95.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 96: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/96.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 97: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/97.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
DefinitionA real sequence a(n) has appropriate growth for a formalpower series F (t) :=
∑∞i=0 cit
i if
a(n+ j) ∼ a(n)E(n)j F (δ(n)j) (n→ +∞)
for each j with positive sequences {E(n)} and {δ(n)} → 0.
QuestionIn the Hermite case we have
E(n) := eA(n) and F (t) := e−t2.
How does the shape of F (t) impact “limiting polynomials”?
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
Most General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth for the power series
F (t) =
∞∑i=0
citi,
then for each degree d ≥ 1 we have
limn→+∞
1
a(n) · δ(n)d·Jd,na
(δ(n)X − 1
E(n)
)= d!
d∑k=0
(−1)d−kcd−k ·Xk
k!.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 99: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/99.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
More General Theorem
Most General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth for the power series
F (t) =
∞∑i=0
citi,
then for each degree d ≥ 1 we have
limn→+∞
1
a(n) · δ(n)d·Jd,na
(δ(n)X − 1
E(n)
)= d!
d∑k=0
(−1)d−kcd−k ·Xk
k!.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 100: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/100.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Some Remarks
Remark (Limit Polynomials)
If a : N 7→ R is appropriate for F (t), then
F (−t) · eXt =
∞∑d=0
Hd(X) · td
d!.
Examples (Special Examples)
Suppose that a : N 7→ R has appropriate growth for F (t).(1) F (t) = −t
e−t−1 =⇒ Hd(X) = Bd(X) Bernoulli poly.
(2) F (t) = 2e−t+1
=⇒ Hd(X) = Ed(X) Euler poly.
(3) F (t) = e−t2
=⇒ Hd(X) = Hd(X) Hermite poly.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 101: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/101.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Some Remarks
Remark (Limit Polynomials)
If a : N 7→ R is appropriate for F (t), then
F (−t) · eXt =
∞∑d=0
Hd(X) · td
d!.
Examples (Special Examples)
Suppose that a : N 7→ R has appropriate growth for F (t).
(1) F (t) = −te−t−1 =⇒ Hd(X) = Bd(X) Bernoulli poly.
(2) F (t) = 2e−t+1
=⇒ Hd(X) = Ed(X) Euler poly.
(3) F (t) = e−t2
=⇒ Hd(X) = Hd(X) Hermite poly.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 102: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/102.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Some Remarks
Remark (Limit Polynomials)
If a : N 7→ R is appropriate for F (t), then
F (−t) · eXt =
∞∑d=0
Hd(X) · td
d!.
Examples (Special Examples)
Suppose that a : N 7→ R has appropriate growth for F (t).(1) F (t) = −t
e−t−1 =⇒ Hd(X) = Bd(X) Bernoulli poly.
(2) F (t) = 2e−t+1
=⇒ Hd(X) = Ed(X) Euler poly.
(3) F (t) = e−t2
=⇒ Hd(X) = Hd(X) Hermite poly.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 103: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/103.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Some Remarks
Remark (Limit Polynomials)
If a : N 7→ R is appropriate for F (t), then
F (−t) · eXt =
∞∑d=0
Hd(X) · td
d!.
Examples (Special Examples)
Suppose that a : N 7→ R has appropriate growth for F (t).(1) F (t) = −t
e−t−1 =⇒ Hd(X) = Bd(X) Bernoulli poly.
(2) F (t) = 2e−t+1
=⇒ Hd(X) = Ed(X) Euler poly.
(3) F (t) = e−t2
=⇒ Hd(X) = Hd(X) Hermite poly.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 104: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/104.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Some Remarks
Remark (Limit Polynomials)
If a : N 7→ R is appropriate for F (t), then
F (−t) · eXt =
∞∑d=0
Hd(X) · td
d!.
Examples (Special Examples)
Suppose that a : N 7→ R has appropriate growth for F (t).(1) F (t) = −t
e−t−1 =⇒ Hd(X) = Bd(X) Bernoulli poly.
(2) F (t) = 2e−t+1
=⇒ Hd(X) = Ed(X) Euler poly.
(3) F (t) = e−t2
=⇒ Hd(X) = Hd(X) Hermite poly.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 105: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/105.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose End
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.
In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Sketch of Proof.• Derivatives causes zeros to line up nicely.• Truth of RH for low height interfaces well with differentiation.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 106: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/106.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose End
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Sketch of Proof.• Derivatives causes zeros to line up nicely.• Truth of RH for low height interfaces well with differentiation.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 107: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/107.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose End
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Sketch of Proof.• Derivatives causes zeros to line up nicely.
• Truth of RH for low height interfaces well with differentiation.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 108: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/108.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose End
Theorem (O+)
Height T RH =⇒ hyperbolicity of Jd,n(X) for all n if d� T 2.In particular, Jd,nγ (X) is hyperbolic for all n when d ≤ 1020.
Sketch of Proof.• Derivatives causes zeros to line up nicely.• Truth of RH for low height interfaces well with differentiation.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 109: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/109.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose Ends
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Sketch of Proof.Sturm sequence method with our estimates.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 110: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/110.jpg)
Hyperbolicity of Jensen polynomialsMost General Theorem
Loose Ends
Theorem (O+)
If n� 3d · d258 , then Jd,nγ (X) is hyperbolic.
Sketch of Proof.Sturm sequence method with our estimates.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 111: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/111.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
The Future
Definition
A sequence with appropriate growth for F (t) = e−t2 has type
Z : N→ R+ if Jd,na (X) is hyperbolic for n ≥ Z(d).
Remarks1 RH is equivalent to γ(n) having type Z = 0.2 For γ(n) we have proved that Z(d) = O(3d · d
258 ).
3 Have heuristics for Z(d) for modular form coefficients.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
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Hyperbolicity of Jensen polynomialsWrap Up
The Future
Definition
A sequence with appropriate growth for F (t) = e−t2 has type
Z : N→ R+ if Jd,na (X) is hyperbolic for n ≥ Z(d).
Remarks1 RH is equivalent to γ(n) having type Z = 0.2 For γ(n) we have proved that Z(d) = O(3d · d
258 ).
3 Have heuristics for Z(d) for modular form coefficients.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 113: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/113.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
The Future
Definition
A sequence with appropriate growth for F (t) = e−t2 has type
Z : N→ R+ if Jd,na (X) is hyperbolic for n ≥ Z(d).
Remarks1 RH is equivalent to γ(n) having type Z = 0.
2 For γ(n) we have proved that Z(d) = O(3d · d258 ).
3 Have heuristics for Z(d) for modular form coefficients.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 114: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/114.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
The Future
Definition
A sequence with appropriate growth for F (t) = e−t2 has type
Z : N→ R+ if Jd,na (X) is hyperbolic for n ≥ Z(d).
Remarks1 RH is equivalent to γ(n) having type Z = 0.2 For γ(n) we have proved that Z(d) = O(3d · d
258 ).
3 Have heuristics for Z(d) for modular form coefficients.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 115: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/115.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
The Future
Definition
A sequence with appropriate growth for F (t) = e−t2 has type
Z : N→ R+ if Jd,na (X) is hyperbolic for n ≥ Z(d).
Remarks1 RH is equivalent to γ(n) having type Z = 0.2 For γ(n) we have proved that Z(d) = O(3d · d
258 ).
3 Have heuristics for Z(d) for modular form coefficients.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 116: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/116.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Special Case of p(n)
Speculation (Griffin, O, Rolen, Zagier)
If n ≤ 32, then we have Z(d) ∼ 10d2 log d.Does this continue for larger n?
Evidence
If we let Z(d) := 10d2 log d, then we have
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 117: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/117.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Special Case of p(n)
Speculation (Griffin, O, Rolen, Zagier)
If n ≤ 32, then we have Z(d) ∼ 10d2 log d.
Does this continue for larger n?
Evidence
If we let Z(d) := 10d2 log d, then we have
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 118: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/118.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Special Case of p(n)
Speculation (Griffin, O, Rolen, Zagier)
If n ≤ 32, then we have Z(d) ∼ 10d2 log d.Does this continue for larger n?
Evidence
If we let Z(d) := 10d2 log d, then we have
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 119: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/119.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Special Case of p(n)
Speculation (Griffin, O, Rolen, Zagier)
If n ≤ 32, then we have Z(d) ∼ 10d2 log d.Does this continue for larger n?
Evidence
If we let Z(d) := 10d2 log d, then we have
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 120: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/120.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Our Results
General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth, then for d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Most General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth for F (t) =∑∞
i=0 citi, then for
each degree d ≥ 1 we have
limn→+∞
1
a(n) · δ(n)d·Jd,na
(δ(n)X − 1
E(n)
)= d!
d∑k=0
(−1)d−kcd−k ·Xk
k!.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 121: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/121.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Our Results
General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth, then for d ≥ 1 we have
limn→+∞
Jd,na (X) = Hd(X).
For each d at most finitely many Jd,na (X) are not hyperbolic.
Most General Theorem (Griffin, O, Rolen, Zagier)
If a(n) has appropriate growth for F (t) =∑∞
i=0 citi, then for
each degree d ≥ 1 we have
limn→+∞
1
a(n) · δ(n)d·Jd,na
(δ(n)X − 1
E(n)
)= d!
d∑k=0
(−1)d−kcd−k ·Xk
k!.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 122: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/122.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Applications
Hermite Distributions
1 Jensen-Pólya criterion for RH whenever n� 3d · d258 .
2 Jensen-Pólya criterion for RH for all n if 1 ≤ d ≤ 1020.
3 Height T RH ⇒ Jensen-Pólya criterion for all n if d� T 2.
4 The derivative aspect GUE model for Riemann’s Ξ(x).
5 Coeffs of suitable modular forms are log concave and satisfythe higher Turán inequalities (e.g. Chen’s Conjecture).
+ general theory including Bernoulli and Eulerian distributions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials
![Page 123: The Jensen-Pólya Program for the Riemann Hypothesis and ...math.gmu.edu/~wmorris/JensenPolynomialsOno2019.pdf · Riemann Hypothesis and Related Problems KenOno(UofVirginia) Ken Ono](https://reader033.vdocuments.net/reader033/viewer/2022050509/5f9a10b58fc73520ec57939b/html5/thumbnails/123.jpg)
Hyperbolicity of Jensen polynomialsWrap Up
Applications
Hermite Distributions
1 Jensen-Pólya criterion for RH whenever n� 3d · d258 .
2 Jensen-Pólya criterion for RH for all n if 1 ≤ d ≤ 1020.
3 Height T RH ⇒ Jensen-Pólya criterion for all n if d� T 2.
4 The derivative aspect GUE model for Riemann’s Ξ(x).
5 Coeffs of suitable modular forms are log concave and satisfythe higher Turán inequalities (e.g. Chen’s Conjecture).
+ general theory including Bernoulli and Eulerian distributions.
Ken Ono (U of Virginia) Hyperbolicity of Jensen polynomials