Supersymmetry Breaking at Finite Temperature in a Susy Harmonic   Oscillator with Interaction

C. Marques; GS Dias; FC Khanna; H. S. Chavez

arXiv:1703.03820·quant-ph·May 29, 2018·1 cites

Supersymmetry Breaking at Finite Temperature in a Susy Harmonic Oscillator with Interaction

C. Marques, GS Dias, FC Khanna, H. S. Chavez

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TL;DR

This paper investigates how supersymmetry breaking occurs at finite temperatures in a supersymmetric harmonic oscillator with interactions, using Thermo Field Dynamics to analyze thermal effects and energy behavior.

Contribution

It introduces a study of supersymmetry breaking at finite temperature in an interacting supersymmetric harmonic oscillator using Thermo Field Dynamics.

Findings

01

Supersymmetry is restored at finite temperature with non-zero energy.

02

At zero temperature, the energy remains zero, indicating unbroken supersymmetry.

03

Thermal effects lead to energy additivity at finite temperatures.

Abstract

Supersymmetry breaking of a supersymmetric harmonic oscillator with polynomial interaction is analyzed. Some thermal effects are studied in the context of Thermo Field Dynamics (TFD). The restored supersymmetry results in non vanishing energy at finite temperatures due the additivity of the thermal effects, while at $T = 0$ the energy is zero.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · Quantum Electrodynamics and Casimir Effect · Quantum, superfluid, helium dynamics