Boundary effects and gapped dispersion in rotating fermionic matter

Boundary effects and gapped dispersion in rotating fermionic matter

Blog Article

We discuss the importance of boundary effects on fermionic matter in a rotating frame.By explicit calculations at zero temperature we show that the scalar condensate of fermion and anti-fermion cannot be modified by the rotation once the viqua-f4 boundary condition is properly implemented.The situation is qualitatively changed at finite temperature and/or in the presence of a sufficiently strong magnetic read more field that supersedes the boundary effects.Therefore, to establish an interpretation of the rotation as an effective chemical potential, it is crucial to consider further environmental effects such as the finite temperature and magnetic field.