Deformation quantization for systems with second-class constraints in deformed fermionic phase space

Abstract

In order to quantize systems involving second-class constraints, one should use Dirac bracket instead of Poisson bracket. Furthermore, one can specify a star product in which the term linear in $\hbar$ is proportional to the Dirac bracket. In this way an oscillator system in a deformed fermionic phase space is analyzed and the corresponding energy level and Wigner functions are evaluated according to scheme of deformation quantization. We also study the entanglement entropy induced by the deformation of the fermionic phase space.

Figures (2)

• Figure 1: In the case $c=d$, the entanglement entropy $E_p(W_{++})=E_p(W_{--})$ with respect to the variable $c/\hbar$.
• Figure 2: In the case $c=d$, the entanglement entropy $E_p(W_{+-})=E_p(W_{-+})$ with respect to the variable $c/\hbar$.