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Superfluid turbulence & Nonthermal Fixed Points in Bose Gases
Thomas Gasenzer
Institut für Theoretische Physik Ruprecht-Karls Universität Heidelberg
Philosophenweg 16 • 69120 Heidelberg • Germany
email: [email protected]: www.thphys.uni-heidelberg.de/~gasenzer
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Thanks & credits to...
...my work group in Heidelberg:
Boris NowakMaximilian SchmidtJan Schole Dénes SextySebastian BockSebastian ErneMartin GärttnerSteven MatheyNikolai PhilippMartin TrappeJan ZillRoman Hennig
...my former students:
Cédric Bodet ( NEC), Alexander Branschädel ( KIT Karlsruhe), Stefan Keßler ( U Erlangen), Matthias Kronenwett ( R. Berger), Christian Scheppach ( Cambridge, UK), Philipp Struck ( Konstanz), Kristan Temme ( Vienna)
LGFG BaWue
€€€...
ExtreMe Matter Institute
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Heavy-Ion collisions (~1015 K)Non-equilibriumgases
Sun's core
Sun's surface
Room
Cosmic Microwave Background
Coldest Atomic gas
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Equilibration
Transient statee.g. Turbulence
Non-thermal fixed point
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Classical Turbulence
Kinetic energy cascade
large scales (source) → small scales (sink)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Classical Turbulence
“Big whirls have little whirls that feed on their velocity, and little whirls have lesser whirls and so on to viscosity.”
(Richardson, 1920)
Lewis F. Richardson(1881-1953)Kinetic energy cascade
large scales (source) → small scales (sink)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Classical Turbulence
“Big whirls have little whirls that feed on their velocity, and little whirls have lesser whirls and so on to viscosity.”
(Richardson, 1920)
Kolmogorov (1941) E(k) ~ k—5/3 (dynamical critical phenomenon)
Kinetic energy cascade
large scales (source) → small scales (sink)
Andrey N. Kolmogorov(1903-1987)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Experiments
1 = 2E∥
k/kd = kη
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Superfluid Turbulence
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Vortices in a Na condensate
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Superfluid Hydro of a Dilute Gas
The Gross-Pitaevskii Eq. in the classical regime,
is equiv. to
(Euler eq.)
with defs.
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Movie 1: Phase evolution
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Movie 2: Spectrum
n(k) = *(k)(k)|angle average
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Spectrum in 2+1 D
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Wave Turbulence
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyBalance equation for radial flux
k
kx
ky
pump
radial flux
rad. occupation no. n rad. particle flux Q
∂t n(k) = — ∂k Q(k)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyRadial transport equation:
k
pump
radial flux
∂t n(k) = — ∂k Q(k) ~ kd—1 J(k)
Quantum Boltzmann Scattering integral:
d −1 +1 + 3d − d − 2 − 3ζ = 0 ⇒ ζ = d −2/3
Radial flux density is k-independent, Q(k)≡Q , if:
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Scaling in d+1 Dim.
momentum k
ζ = d
C. Scheppach, J. Berges, TG PRA 81 (10) 033611
n ζ = d −2/3
n ~ k −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Scaling in d+1 Dim.
momentum k
ζ = 2
thermalequilibrium
ζ = d
C. Scheppach, J. Berges, TG PRA 81 (10) 033611
n ζ = d −2/3
n ~ k −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Scaling in d+1 Dim.
momentum k
ζ = d + 2
n ~ k −ζ
C. Scheppach, J. Berges, TG PRA 81 (10) 033611 J. Berges, A. Rothkopf, J. Schmidt, PRL 101 (08) 041603
nζ = d + 2 + z
ζ = dζ = d −2/3
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Strong turbulence
p = ( p0, p):
Vertex bubble resummation:(~2PI to NLO in 1/N)
[Dynamics: J. Berges, (02); G. Aarts et al., (02); TG, Seco, Schmidt, Berges (05); Kadan.Baym: “GW-Approximation”, Hedin (65)]
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Statistics of vortices
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
2D statistics of vortices
[B. Nowak, J. Schole, D. Sexty, T. Gasenzer, in prep.]
nk ~ k −4 nk ~ k
−2, k < kpair
nk ~ k −4, k > kpair
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
2D statistics of vortices
[B. Nowak, J. Schole, D. Sexty, T. Gasenzer, in prep.]
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
2D statistics of vortices
[B. Nowak, J. Schole, D. Sexty, T. Gasenzer, in prep.]
# pairs < 8
all pair numbers
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
3D simulations
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Relativistic scalar field
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Turbulence in reheating after inflation
∂t2−∂ x
2x , t 3 x ,t =0
Simulations of the non-linear Klein-Gordon equation,
Kofmann, Linde, Starobinsky (96)Micha, Tkachev, PRL & PRD (04)
Initial condition: Highly occupied zero modeUnoccupied modes with k>0
Turbulent spectrum emerges
Exponent: weak wave turbulence
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Strong Turbulence
∂t2−∂ x
2x , t 3 x ,t =0
Simulations of the non-linear Klein-Gordon equation, O(2) symmetry
TG, B. Nowak, D. Sexty, arXiv:1108.0541 [hep-ph]
Initial condition: Highly occupied zero mode, Unoccupied modes with k>0
(video)
See also: http://www.thphys.uni-heidelberg.de/~sexty/videos
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Strong Turbulence = Charge Separation
TG, B. Nowak, D. Sexty, arXiv:1108.0541 [hep-ph]cf. also Tkachev, Kofman, Starobinsky, Linde (1998)
Modulus of complex field || vs. mean charge distribution
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Strong Turbulence = Charge Separation
TG, B. Nowak, D. Sexty, arXiv:1108.0541 [hep-ph]
Charge density distribution vs. power spectrum
(d = 2, N = 2)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Have a non-turbulent flight home!
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Thanks & credits to...
...my work group in Heidelberg:
Boris NowakMaximilian SchmidtJan Schole Dénes SextySebastian BockSebastian ErneMartin GärttnerSteven MatheyNikolai PhilippMartin TrappeJan ZillRoman Hennig
...my former students:
Cédric Bodet ( NEC), Alexander Branschädel ( KIT Karlsruhe), Stefan Keßler ( U Erlangen), Matthias Kronenwett ( R. Berger), Christian Scheppach ( Cambridge, UK), Philipp Struck ( Konstanz), Kristan Temme ( Vienna)
LGFG BaWue
€€€...
ExtreMe Matter Institute
![Page 34: Dynamics in the Ultracold - Atomic gases far from equilibriumtheory.gsi.de/~ebratkov/Conferences/NeD-TORIC-2011/... · Thomas Gasenzer Institut für Theoretische Physik Ruprecht-Karls](https://reader035.vdocuments.net/reader035/viewer/2022071415/611154cfec356f2a0d3e5207/html5/thumbnails/34.jpg)
Supplementary slides
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Vortex tangles in Bose Einstein Condensates
[E.A.L. Henn et al. PRL 103 (09)]
[N. Berloff & B. Svistunov, PRA (02)]
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Vortex pairs
[T.W. Neely et al. PRL 104 (10)]
Guadeloupe [NASA]
Tucson [AZ]
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Nonlinear dynamics: Pattern formation
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Nonlinear dynamics: Pattern formation
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Wave turbulence
Turbulent thermalisation after universe inflation
[Micha & Tkachev, PRL 90 (03) 121301, PRD 70 (04) 043538]
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Acoustic turbulence
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Decomposition of Energy
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 2+1 D E(k) = ω(k)k d – 1n(k)
Remember:q
solenoidal
rotationless
k0
E(k) ~ k ‒5/3
k ‒1
B. Nowak, D. Sexty, TG (arXiv:1012.4437), PRB tbp.
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 2+1 D E(k) = ω(k)k d – 1n(k)
Remember:q
solenoidal
rotationless
k0
E(k) ~ k ‒5/3
k ‒1
B. Nowak, D. Sexty, TG (arXiv:1012.4437), PRB tbp.
![Page 44: Dynamics in the Ultracold - Atomic gases far from equilibriumtheory.gsi.de/~ebratkov/Conferences/NeD-TORIC-2011/... · Thomas Gasenzer Institut für Theoretische Physik Ruprecht-Karls](https://reader035.vdocuments.net/reader035/viewer/2022071415/611154cfec356f2a0d3e5207/html5/thumbnails/44.jpg)
Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 2+1 D E(k) = ω(k)k d – 1n(k)
Remember:q
solenoidal
rotationless
k0
E(k) ~ k ‒5/3
k ‒1
B. Nowak, D. Sexty, TG (arXiv:1012.4437), PRB tbp.
![Page 45: Dynamics in the Ultracold - Atomic gases far from equilibriumtheory.gsi.de/~ebratkov/Conferences/NeD-TORIC-2011/... · Thomas Gasenzer Institut für Theoretische Physik Ruprecht-Karls](https://reader035.vdocuments.net/reader035/viewer/2022071415/611154cfec356f2a0d3e5207/html5/thumbnails/45.jpg)
Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 3+1 D
B. Nowak, D. Sexty, TG (arXiv:1012.4437)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 3+1 D E(k) = ω(k)kd – 1n(k)
Remember:
B. Nowak, D. Sexty, TG (unpublished)
q
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 3+1 D E(k) = ω(k)kd – 1n(k)
Remember:q
k0
E(k) ~ k ‒5/3
k ‒1
B. Nowak, D. Sexty, TG (arXiv:1012.4437)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Late stage in 3+1 D E(k) = ω(k)kd – 1n(k)
J. Schole, B. Nowak, D. Sexty, TG (unpublished)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Time evolution of vortex density
J. Schole, B. Nowak, D. Sexty, TG (unpublished)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Time evolution of vortex density
J. Schole, B. Nowak, D. Sexty, TG (unpublished)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Vortex velocity distribution
J. Schole, B. Nowak, D. Sexty, TG (unpublished)
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Quantum Turbulence
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Spectral functions
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Simulations in 2+1 D (semi-classical)
B. Nowak, D. Sexty, TG (unpublished)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Energies
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Gross-Pitaevskii dynamicsMany-body Hamiltonian:
Gross-Pitaevskii, i.e. Classical Field Equation for “matter waves”, from vNE:
typical scattering length:typical bulk density:
⇒ diluteness parameter: (GPE valid for ⇔ small condensate depletion)
⇒
a ≃ 5 nmn ≃ 1014 cm−3
na3 ≃ 10−5 na3 ≪ 1
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyWith kinetic (Boltzmann) eq.
k
pump
radial flux
∂t n(k) = — ∂k Q(k) ~ kd—1 J(k)
Scattering integral:
3d −d−2−3ζ
d −1 +1 + 3d − d − 2 − 3ζ = 0
Radial flux density is k-independent, Q(k)≡Q , if:
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyRadial transport equation:
k
pump
radial flux
∂t n(k) = — ∂k Q(k) ~ kd—1 J(k)
Quantum Boltzmann Scattering integral:
3d −d−2−3ζ
d −1 +1 + 3d − d − 2 − 3ζ = 0 ⇒ ζ = d −2/3
Radial flux density is k-independent, Q(k)≡Q , if:
nk ~ k −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Dynamical field theory
Kinetic (Quantum-Boltzmann) eq.:
Dynamic (Schwinger-Dyson) eq.: (from 2PI effective action)
p = ( p0, p):
Statistical function: Occupation
Spectral function: Available modes
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Dynamical field theory
Kinetic (Quantum-Boltzmann) eq.:
Dynamic (Schwinger-Dyson) eq.: (from 2PI effective action)
p = ( p0, p):
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Scaling solutionsWe look for scaling solutions fulfilling stationarity condition J(p) = 0
Scaling ansatz:
Implies scaling of the single-particle momentum distribution:
= −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyWith kinetic (Boltzmann) eq.
k
pump
radial flux
T(k) ~ g |1 + const.× g k d−2 n(k)|
Scattering integral:
3d −d−2−3ζ
Radial flux density is k-independent, Q(k)≡Q , if:
d −1 +1 + 3d − d − 2 − 3ζ +2(2 − d +ζ) = 0
Radial flux density is k-independent, Q(k)≡Q , if:
2 −d +ζ
nk ~ k −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Local radial flux onlyWith kinetic (Boltzmann) eq.
k
pump
radial flux Scattering integral:
3d −d−2−3ζ
Radial flux density is k-independent, Q(k)≡Q , if:
d −1 +1 + 3d − d − 2 − 3ζ +2(2 − d +ζ) = 0 ⇒ ζ = d + 2
Radial flux density is k-independent, Q(k)≡Q , if:
2 −d +ζT(k) ~ g |1 + const.× g k d−2 n(k)|
nk ~ k −ζ
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Scaling exponents( in d dimensions )
ζ = d +(z −2 +η)/3
Constant P(k) ≡ P Constant Q(p)
ζ = d −(2−η)/3
n ~ k −ζ
C. Scheppach, J. Berges, T. Gasenzer PRA 81 (10) 033611
UV:
IR: ζ = d + z +2 −η ζ = d +2 −η
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Kolmogorov's theory of turbulence(1941)
Scale invariant (self-similar) stationary transport:
Radial energy density E [kg s—2] Radial energy flux P [kg m—1 s—3] Density ρ [kg m—3]
log E(k)
log k
E(k) ~ P 2/3 ρ1/3 k—5/3
pump
dump
Dimensional analysis:
3D:
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
To derive scaling Familiarize the...
V.E. Zakharov, V.S. L'vov, G. Falkovich, Kolmogorov Spectra of Turbulence (Springer, Berlin, 1992)
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Turbulence vs. Critical PhenomenaUniversality from IR tuning Universality from Microphys.
Spatial separation r wave number kIntegral scale L UV Cutoff ΛDissipation scale kd=η —1 Correlation length ξViscosity ν Temperature T — Tc
Intermittency exponent μ Anomalous expt. ηc
Alternative: UV fixed point
Spatial separation r Spatial separation rIntegral scale ξL Correlation length ξViscosity ν or dissip. Scale η lattice spacing a
Real-time flow: Fully developed turbulence as an unstable fixed point.
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Heraklion · NeD · 1 September 2011 Thomas Gasenzer
Lewis Fry Richardson, FRS (1881-1953)
Big whirls have little whirls that feed on their velocity,and little whirls have lesser whirls and so on to viscosity.
(L.F. Richardson, The supply of energy from and to Atmospheric Eddies, 1920)
Great fleas have little fleas upon their backs to bite 'em,And little fleas have lesser fleas, and so ad infinitum.And the great fleas themselves, in turn, have greater fleas to go on;While these again have greater still, and greater still, and so on.
(Augustus de Morgan, A Budget of Paradoxes, 1872, p. 370)
So, naturalists observe, a fleaHas smaller fleas that on him prey;And these have smaller still to bite 'em;And so proceed ad infinitum.
(Jonathan Swift: Poetry, a Rhapsody, 1733)