We have theoretically investigated two-dimensional atom localization using the absorption spectra of birefringence beams of light in a single wavelength domain. The atom localization is controlled and modified through tunneling effect in a conductive chiral atomic medium with absorption spectra of birefringent beams. The significant localization peaks are investigated in the left and right circularly polarized beam. Single and double localized peaks are observed in different quadrants with minimum uncertainty and significant probability. The localized probability is modified by controlling birefringence and tunneling conditions. These results may be useful for the capability of optical microscopy and atom imaging.

我们在理论上使用了单波长域中双折射光束的吸收光谱研究了二维原子定位。通过具有双折射光束吸收光谱的导电手性原子介质中的隧穿效应来控制和修改原子的定位。在左旋和右旋圆偏振光束中研究了显着的定位峰。在不同象限中观察到单峰和双峰，具有最小的不确定性和明显的概率。通过控制双折射和隧穿条件可以修改局部概率。这些结果对于光学显微镜和原子成像的能力可能是有用的。