Quasi-monolithic Compact Interferometric Sensor Head Design with Laser Auto-alignment (2401.01901v1)

Abstract: Interferometers play a crucial role in high-precision displacement measurement such as gravitational-wave detection. Conventional interferometer designs require accurate laser alignment, including the laser pointing and the waist position, to maintain high interference contrast during motion. Although the corner reflector returns the reflected beam in parallel, there is still a problem of lateral beam shift which reduces the interference contrast. This paper presents a new compact interferometric sensor head design for measuring translations with auto-alignment. It works without laser beam alignment adjustment and maintains high interferometric contrast during arbitrary motion (tilts as well as lateral translation). Automatic alignment of the measuring beam with the reference beam is possible by means of a secondary reflection design with a corner reflector. A 20*10*10mm^3 all-glass quasi-monolithic sensor head is built based on UV adhesive bonding and tested by a piezoelectric (PZT) positioning stage. Our sensor head achieved a displacement sensitivity of 1 pm/Hz^1/2 at 1Hz with a tilt dynamic range over +/_200 mrad. This optical design can be widely used for high-precision displacement measurement over a large tilt dynamic range, such as torsion balances and seismometers.