Chiral-stress-energy-momentum tensor for covariant description of spin and torque densities of light

Complex Light and Optical Forces XVIII Pub Date : 2024-03-12 DOI:10.1117/12.3002794
M. Partanen, J. Tulkki
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Abstract

The measurement of the spin angular momentum of circularly polarized light by Beth [Phys. Rev. 50, 115 (1936)] can be explained by using a microscopic torque density. However, the experiment does not resolve the space- and time-dependent evolution of the spin density of light and the wave plate and the covariant form of the microscopic torque density. Here we focus on the covariant description of the helicity, spin, and torque densities of light in materials using the chiral-stress-energy-momentum tensor. We also perform simulations of Gaussian light pulses in quarter-wave-plate geometries made of birefringent and dielectric materials.
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用于光的自旋和转矩密度协变量描述的手性应力-能量-动量张量
贝思对圆偏振光自旋角动量的测量[Phys. Rev. 50, 115 (1936)]可以用微观转矩密度来解释。然而,该实验并没有解决光和波盘的自旋密度随空间和时间的演变问题,也没有解决微观转矩密度的协变形式问题。在此,我们重点利用手性应力-能量-动量张量对材料中光的螺旋度、自旋和转矩密度进行协变量描述。我们还对双折射材料和介电材料制成的四分之一波板几何结构中的高斯光脉冲进行了模拟。
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Complex Light and Optical Forces XVIII
Complex Light and Optical Forces XVIII
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