References
- Kaczmarek PR, Rogowski T, Antonczak AJ, et al. Laser Doppler vibrometry with acoustooptic frequency shift. Opt Appl. 2004;34(no. 3):373–384.
- Voloshinov VB, Molchanov VY. Acousto-optical modulation of radiation with arbitrary polarization direction. Opt Laser Technol. 1995;27(5):307–313.
- Trypogeorgos D, Harte T, Bonnin A, et al. Precise shaping of laser light by an acousto-optic deflector. Opt Express. 2013;21(no. 21):24837.
- Li T, Pareja J, Becker L, et al. Quasi-4D laser diagnostics using an acousto-optic deflector scanning system. Appl Phys B. 2017;123(3):78.
- Yushkov KB, Molchanov V. Acousto-optic filters with arbitrary spectral transmission. Opt Commun. 2015;355:177–180.
- Kozlova O, Sadouni A, Truong D, et al. Tunable transportable spectroradiometer based on an acousto-optical tunable filter: Development and optical performance. Rev Sci Instrum. 2016;87:125101.
- Kastelik JC, Dupont S, Benaissa H, et al. Bifrequency acousto-optic beam splitter. Rev Sci Instrum. 2006;77(7):075103.
- Caucheteur C, Guo T, Albert J. Polarization-Assisted fiber Bragg grating sensors: Tutorial and review. J Lightwave Technol. 2017;35:3311–3322.
- Levenson MD, Eesley GL. Polarization selective optical heterodyne detection for dramatically improved sensitivity in laser spectroscopy. Appl Phys. 1979;19:1–17.
- Yan L, Li Y, Chandrasekar V, et al. General review of optical polarization remote sensing. Int J Remote Sens. 2020;41(13):4853–4864.
- Antonov SN. Wide-Angle polarization-independent paratellurite-based acousto-optic laser radiation modulator. Acoust Phys. 2020;66:5–11.
- Voloshinov VB, Molchanov VY, Mosquera JC. Spectral and polarization analysis of optical images by means of acousto-optics. Opt Laser Technol. 1996;28(2):119–127.
- Anikin SP, Chizhikov AI, Molchanov VY, et al. Aotf transmission shaping for spectral polarimetric imaging. Proc. SPIE 11525, SPIE Future Sensing Technologies. 8 November 2020;11525:115251C.
- Obata R, Yoshinaga A, Yamamoto M, et al. Imaging of a retinal pigment epithelium aperture using polarization-sensitive optical coherence tomography. Jpn J Ophthalmol. 2021;65(1):30–41.
- Cheng L-J, Reyes GF. SPIE proceedings. presented at the Detection Technologies for Mines and Minelike Targets. 1995;2496:305–311.
- Dekemper E, Fussen D, Van Opstal B, et al. ALTIUS: a spaceborne AOTF-based UV-VIS-NIR hyperspectral imager for atmospheric remote sensing. In: Meynart R, Neeck SP, Shimoda H, editors. Sensors, systems, and next-generation satellites XVIII. Society of photo-optical instrumentation engineers (SPIE) Conference Series. Vol. 9241; 2014. p. 92410L.
- Rondeaux G, Herman M. Polarization of light reflected by crop canopies⋆. Remote Sens Environ. 1991;38(1):63–75.
- McCarthy KA, Goutzoulis AP, Gottlieb M, et al. Optical rotatory power in crystals of the mercurous halides and tellurium dioxide. Opt Commun. 1987;64(no. 2):157–159.
- Champagne J, Kastelik J-C, Dupont S, et al. Study of the spectral bandwidth of a double-pass acousto-optic system [invited]. Appl Opt. 2018;57(no. 10):C49.