dynamical susy breaking in meta-stable vacuasusy06.physics.uci.edu/talks/3/intriligator.pdf · rank...
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Dynamical SUSY Breaking in Meta-Stable Vacua
Ken Intriligator, UCSD & IASSUSY 2006, 6/14/2006
KI, Nathan Seiberg, and David Shih hep-th/0602239
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Dynamical Supersymmetry Breaking:
• No explicit breaking:• Vacuum spontaneously breaks SUSY.• SUSY breaking related to some dynamical
scale
Can naturally get hierarchies (Witten).
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Dynamical SUSY breaking is hard
• Witten index: All SUSY gauge theories with massive, vector-like matter have SUSY vacua.So for broken SUSY, seem to need a chiral gauge theory. DSB looks non-generic.
• Most of our techniques to analyze SUSY theories are based on holomorphy/chirality/BPS.SUSY breaking depends on the Kahler potentialwhich is hard to control.
Perhaps we should try a new approach...3
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Perhaps we live in a long-lived false vacuum
You are here. (?)V
fields
unbroken SUSY elsewhere
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An old idea. Here, also in the SUSY breaking sector. Find simpler models of DSB. Suggests meta-stableDSB is generic.
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N=1 SU(Nc) SQCD with Nf flavors
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We will focus on the range of the number of colors and flavors Infra-red free magnetic (Seiberg).
When all the quarks are massive,there are SUSY vacua.
For
Study the limitin the region near the origin.
There, we should use magnetic dual variables…M
V
?
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The magnetic theory (Seiberg)
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We will focus on wherethe theory is in a free magnetic phase;i.e. the magnetic theory is IR free.
The magnetic theory is
with
Electric
Magnetic
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The magnetic theory, cont.
where
UV cutoff of this IR free theory is .
The Kahler potential for the IR free fields is smoothnear the origin and can be taken to be canonical:
Key point: The leading Kahler potential is known, up to two dimensionless normalization constant factors.
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Rank condition SUSY breaking Quark masses are described in the magnetic dual by
SUSY broken at tree level!
(rank Nf )(rank Nf -Nc )
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(using the classical rank of .) This SUSY breaking is a check of the duality. Otherwise, would have had unexpected, extra SUSY vacua.
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Summary: the potential with massiveflavors
M
V
To be uncovered soon!
For M at the origin SUSY broken by rank condition in the magnetic description. Reliable in free magnetic range:
SUSY vacua
9This ends our review of things understood more than a decadeago.
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DSB vacua near the origin, via F.M. dual
Classical vacua (up to global symmetries) with broken SUSY:
Arbitrary and matricesPseudo-moduli:
DSB:
Pseudo-flat directions are lifted in the quantum theory(typical of tree-level breaking).
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Pseudo-moduli get a potential at 1-loop in the magnetic theory
Use
1-loop effective potential for pseudo-moduli:
1-loop vacuum energy
mass matrices arefunctions of thepseudo-moduli
Higher loops (higher powers of small ) are smaller, because the magnetic theory is IR free.
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Effect of the one-loop potential for the pseudo-moduli
The effective potential is minimized (up to symmetries):
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All pseudo-moduli get non-tachyonic masses at one-loop. SUSY broken:
Vacua (meta) stable (we'll discuss tunneling soon).
Vacua mysterious in electric description. Not semi-classical, very quantum mechanical.
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Effects from the microscopic theory
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There are (uncalculable) contributions to from high energy modes ( ), e.g. loops of SUSY splitmassive particles. Is this a problem? No.
All such effects can be summarized by corrections to the Kahler potential and lead to effects which are real analyticin . Our calculated is not real analytic in , because it arises from integrating out modes which are massless as .
Corrections from UV modes are thus negligible for
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Dynamical SUSY restoration
SUSY vacua, in magnetic theory via:
Non-perturbatively restores SUSY in the magnetic theory.
In free magnetic range, , this term is , soinsignificant for the DSB vacua near the origin.
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For , can reliably analyze effectof this term elsewhere, and find the SUSY vacua in themagnetic theory, staying below its cutoff:
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Sketch of the full potential
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V
DSB by rank condition in free magnetic dual
Effect of
Nc SUSY vacuameta-stable
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Lifetime of meta-stable DSB vacua
Estimate height and width of potential:
(Recall , .) 16
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Lifetime of DSB vacua, cont.
Decay probability (e.g. Langer,Coleman)
Use the classical, Euclidean action of the bounce. Since , the thin-wall approximation not valid. Can nevertheless estimate:
Our meta-stable DSB vacuum is parametrically long-lived for . 17
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Actually a moduli space of DSB vacua
(SSB)DSB vacua:
Large configuration space of vacua. Non-trivial topology.Solitonic strings.
The massless spectrum of the DSB vacua are:
Exactly massless Goldstone bosons, and a Goldstino. Some extra massless fermions (from pseudo-moduli).
Electric description: naively no massless fields, since quarks have masses and SYM has a mass gap. (True in susy vacua.)
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Prospects for Model Building
Longstanding model building challenges:
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• Naturalness.• Direct gauge mediation leads to Landau poles.• R-symmetry problem.
They can be revisited.
The new DSB mechanisms offer new perspectives on these issues and provide new avenues formodel building.
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R-symmetry problemDSB without susy vacua requires a U(1)R symmetry (or a non-generic superpotential). (Affleck, Dine, Seiberg; Nelson, Seiberg). But for nonzero Majorana gluino masses, U(1)Rshould be broken. To avoid unwanted Goldstone boson,U(1)R should be explicitly broken, which might restore SUSY. (Gravity may help.)
Our examples: no exact U(1)R. (Indeed, SUSY vacua.)Meta-stable DSB vacua have accidental approximate U(1)R.Perhaps it is better if that symmetry is also spontaneously broken. (Our model also has an exact discrete R-symmetry,again bad for gaugino masses; it can be explicitly broken by added interactions.)
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Outlook
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• Accepting meta-stability leads to surprisingly simple models of DSB.
• Can find similar other models (e.g. with mreplaced with a dimensionless or irrelevant coupling). E.g. Ooguri & Ookouchi* (*talk).
• Suggests meta-stable DSB is generic in N = 1SUSY field theory, and in the landscape of string vacua.
• Extend to the landscape of string vacua. Relate to anti-D-branes in KS geometry? (note: baryonic). Counting vacua.
• Cosmology.