Kyle Steinhauer scite author profile

Kyle Steinhauer

5Publications

69Citation Statements Received

164Citation Statements Given

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102

161

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University of Bern

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Loop formulation of supersymmetric Yang-Mills quantum mechanics

Steinhauer

Wenger

2014

J. High Energ. Phys.

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We derive the fermion loop formulation of N = 4 supersymmetric SU(N ) Yang-Mills quantum mechanics on the lattice. The loop formulation naturally separates the contributions to the partition function into its bosonic and fermionic parts with fixed fermion number and provides a way to control potential fermion sign problems arising in numerical simulations of the theory. Furthermore, we present a reduced fermion matrix determinant which allows the projection into the canonical sectors of the theory and hence constitutes an alternative approach to simulate the theory on the lattice.

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Spontaneous Supersymmetry Breaking in the 2DN=1Wess-Zumino Model

Steinhauer

Wenger

2014

Phys. Rev. Lett.

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We study the phase diagram of the two-dimensional N = 1 Wess-Zumino model using Wilson fermions and the fermion loop formulation. We give a complete non-perturbative determination of the ground state structure in the continuum and infinite volume limit. We also present a determination of the particle spectrum in the supersymmetric phase, in the supersymmetry broken phase and across the supersymmetry breaking phase transition. In the supersymmetry broken phase we observe the emergence of the Goldstino particle.

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Loop formulation for the non-linear supersymmetric O(N) sigma-model

Steinhauer¹,

Wenger²

2014

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We derive the fermion loop formulation for the supersymmetric nonlinear O(N) sigma model by performing a hopping expansion using Wilson fermions. In this formulation the fermionic contribution to the partition function becomes a sum over all possible closed non-oriented fermion loop configurations. The interaction between the bosonic and fermionic degrees of freedom is encoded in the constraints arising from the supersymmetry and induces flavour changing fermion loops. For N ≥ 3 this leads to fermion loops which are no longer self-avoiding and hence to a potential sign problem. Since we use Wilson fermions the bare mass needs to be tuned to the chiral point. For N = 2 we determine the critical point and present boson and fermion masses in the critical regime.

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Spontaneous supersymmetry breaking in the 2d N=1 Wess-Zumino model

Baumgartner¹,

Steinhauer²,

Wenger³

2013

Preprint

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Solving the Optimal Trading Trajectory Problem Using Simulated Bifurcation

Steinhauer¹,

Fukadai²,

Yoshida³

2020

SSRN Journal

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Kyle Steinhauer

Loop formulation of supersymmetric Yang-Mills quantum mechanics

Spontaneous Supersymmetry Breaking in the 2DN=1Wess-Zumino Model

Loop formulation for the non-linear supersymmetric O(N) sigma-model

Spontaneous supersymmetry breaking in the 2d N=1 Wess-Zumino model

Solving the Optimal Trading Trajectory Problem Using Simulated Bifurcation

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