SUSY Higgs with Non-perturbative effects

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SUSY Higgs with Non-perturbative effects. Yukihiro Mimura (National Taiwan University) . Based on PLB718 (2013) 1441 . Collaboration with N. Haba , K. Kaneta , and R. Takahashi Work in progress. Seminar at Academia Sinica ( 2013.5.10). Menu. - PowerPoint PPT Presentation

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SUSY Higgs with Non-perturbative effects

Yukihiro Mimura (National Taiwan University)

Based on PLB718 (2013) 1441. Collaboration with N. Haba, K. Kaneta, and R. Takahashi Work in progress.

Seminar at Academia Sinica (2013.5.10)

2

Menu Higgs discovery and Higgs puzzle

SUSY Higgs

Non-perturbative Higgs model in SUSY QCD

Feature of the model (Higgs to diphoton decay)

Summary

3

We’ve found you,

Higgs!

Discovery of the Higgs(-like) boson in July, 2012

4

Higgs? or Higgs-like?

We need to look at it carefully.

SM Higgs?

5

Higgs Puzzle

(20.7 fb-1, new)

6

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Unknown “Higgs Forces”

1. Higgs self-coupling

How does the Higgs field acquire a VEV ?

2. Couplings to fermion (Yukawa coupling)

How does the Higgs VEV give masses to fermions?

SM?

SM?

8Ex.

9

The lightest Higgs mass in MSSM

Maximized at

Higgs mass is predictive in MSSM.

10

The lightest Higgs mass in MSSM

Maximized at

(Hall-Pinner-Ruderman, 1112.2703)

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(tree level)

How about minimization condition?

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RGE solution:(tree level)

Cancellation sensitivity

13

However, in Radiative EWSB scenario, becomes zero at a scale.

(Note : RGEs are homogeneous equation, and thus, the solution is overall-scale invariant.)

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Sensitive to the stop mass parameters

RGEs

Hypercharge weightedTrace of scalar masses

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Good news & Bad news for 125 GeV Higgs

Good news :

Consistent with no sign in direct search

Bad news: Stop mass and/or mixing have to be large, and radiative EWSB breaking is sensitive to them.

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Good news & Bad news for 125 GeV Higgs

Good news :

Consistent with no sign in direct search

Bad news: Stop mass and/or mixing have to be large, and radiative EWSB breaking is sensitive to them.

No EWSB

18

One may extend the SUSY SM.

1. NMSSM

2. Add vector-like matter which couples to the Higgs field.

Coleman-Weinberg potential can enhance the Higgs mass (via VEV-dependent masses).

19

3. BMSSM (Beyond MSSM)

4. Non-perturbative Higgs model

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Non-perturbative Higgs model

Higgs fields are moduli of SUSY QCD.

(Haba-Okada)

Hypercolor

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SUSY QCD (Seiberg et al, 90’s)

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Effective Lagrangian

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SUSY QCD version

Integrating S out

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Dynamical Higgsino mass term(VEV-dependent)

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(Carena-Low-Wagner)

(W loop) (Top loop)

For chiral fermions:

Higgs to diphoton decay width

26

Constructive contribution to W loop is needed.

VEV-dependent contribution to the new particle mass must reduce its mass.

A sizable contribution is needed to enhancethe diphoton decay rate largely.

Unstable solution

The coupling may blow upjust above the weak scale.

27

Sketch of the issue

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Sketch of the issue

For a < 0 (non-perturbatively) and M=0,it always provides a constructive contribution to W loop.

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Dynamical Higgsino mass term(VEV-dependent)

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Suppose that Higgsino loop is the only additional source.

Ratio of the decay amplitude from top quark loop and Higgsino loop

The decay amplitude is about 40% up!

Decay width can be twice as the one in SM.

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Charged Higgs boson loop contribution :

Destructive contribution

There is VEV-independent mass (decoupling).

It does not destabilize the Higgs potential.

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NP potential SUSY breaking

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Merit:

In MSSM,

Demerit:

34

Work in progress :

Pair production of Higgsino is enhanced.

Pair production of the Higgs boson is enhanced.

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Summary

There are missing pieces for the “Higgs forces”.

SUSY Higgs is discussed.

Non-perturbative Higgs model in SUSY QCD is proposed.

It can enhance the Higgs to diphoton decay width.

We look forward to more data to specify the “Higgs forces”.

38

Possible extension of the modelThird generation can be also moduli of SUSY QCD.

Left-handed matter

Right-handed matter

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minimal Supergravity (mSUGRA)/Constrained MSSM (CMSSM)

1. Unified Gaugino masses at GUT scale

2. Universal scalar mass (at Planck/GUT scale)

3. Scalar trilinear coupling (A-term)

4. Ratio of up- and down-type Higgs vev

5. Higgsino mass

( is fixed by the minimization of Higgs potential.)

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tree

averaged stop mass

Little hierarchy

by definition

(Giudice-Rattazzi, Dutta-YM)

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Distribution of Little hierarchy

Probability is not 1% yet.

43(Carena-Gori-Shah-Wagner, 1112.3336)

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Good news & Bad news for 125 GeV Higgs

Good news :

Consistent with no sign in direct search

Bad news: Stop mass and/or mixing have to be large, and radiative EWSB breaking is sensitive to them.

No EWSB

We are OK!

You look uncomfortable.

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