Polarization Dependence of Excess Loss of Amorphous Coating Supermirror in Optical Region for Cavity Ringdown Spectroscopy (2510.09053v1)

Abstract: A long optical path length is critical in achieving sensitive spectroscopy. For cavity ringdown spectroscopy, a cavity consisting of two supermirrors provides a long path length, where high reflectance of the supermirrors results from their slight excess loss. In the case of a crystal coating supermirror, the excess loss has been suggested to depend on polarization. On the other hand, an amorphous coating supermirror was expected to have a negligible polarization dependence. In this work, we measured the excess loss as a function of mirror rotation around its optical axis in the optical region at 681.2 nm for the three amorphous coating supermirrors produced simultaneously by vapor deposition in the same furnace. The back mirror of the cavity was rotated, and the ringdown time as a function of rotational angle was measured every 10 degrees. As a result, sinusoidal variations in excess loss were observed depending on the rotation. The difference in excess loss between the best and worst rotational angles during the rotation of the back mirror reached a maximum of 5.8 +- 1.2 ppm. This difference demonstrates the importance of optimizing the rotational angle alignment of supermirrors to achieve high sensitivity via a long path length in cavity ringdown spectroscopy.