Sự ổn định công suất laser trong một thiết bị đo độ nghiêng laser chính xác

N. Azaryan, V. Batusov; Yu. Budagov, V. Glagolev, M. Lyablin; G. Trubnikov, G. Shirkov, J. Gayde, B. Di Girolamo, D. Mergelkuhl, and M. Nessi, “The precision laser inclinometer long-term measurement in thermo-stabilized conditions (First experimental data),” Phys. Part. Nucl. Lett. 12, 532—535 (2015). V. Batusov, Yu. Budagov, M. Lyablin, G. Shirkov, J.‑Ch. Gayde, and D. Mergelkuhl, “The calibration of the precision laser inclinometer,” Phys. Part. Nucl. Lett. 12, 819–823 (2015). B. Di Girolamo, J.-Ch. Gayde, D. Mergelkuhl, M. Schaumann, J. Wenninger, N. Azaryan, Yu. Budagov, V. Glagolev, M. Lyablin, G. Shirkov, and G. Trubnikov, “The monitoring of the effects of earth surface inclination with the precision laser inclinometer for high luminosity colliders,” in Proceedings of the 25th Particle Acceleration Conference RuPAC2016, St. Petersburg, Russia, 2016, p. 210. N. Azaryan, Yu. Budagov, J.-Ch. Gayde, B. Di Girolamo, V. Glagolev, M. Lyablin, D. Mergelkuhl, G. Shirkov, “The innovative method of high accuracy interferometric calibration of the precision laser inclinometer,” Phys. Part. Nucl. Lett. 14, 112–122 (2017). N. Azaryan, V. Batusov, Yu. Budagov, V. Glagolev, M. Lyablin, G. Trubnikova, G. Shirkov, J.-Ch. Gayde, B. Di Girolamo, A. Herty, H. Mainaud Durand, D. Mergelkuhl, and V. Rude, “Comparative analysis of earthquakes data recorded by the innovative precision laser inclinometer instruments and the classic hydrostatic level system,” Phys. Part. Nucl. Lett. 14, 480–492 (2017). G. A. Michelet and J. P. Trenton, “Disposif de positionnement automatique d’un faisceau laser,” FR Patent No. 2 616 555–A1 (15 June 1987). N. S. Azaryan, Yu. A. Budagov, M. V. Lyablin, A. A. Pluzhnikov, B. Di Girolamo, J.-Ch. Gayde, and D. Mergelkuhl, “Position-sensitive photoreceivers: sensitivity and detectable range of displacements of a focused single-mode laser beam,” Phys. Part. Nucl. Lett. 16, 354—376 (2019). D. Meschede, Optics, Light and Lasers: The Practical Approach to Modern Aspects of Photonics and Laser Physics (Wiley VCH, 2007). J. Gray, P. Thomas, and X. D. Zhu, “Laser pointing stability measured by an oblique-incidence optical transmittance difference technique,” Rev. Sci. Inst. 72 (2001). N. Azaryan, Yu. Budagov, M. Lyablin, A. Pluzhnikov, B. Di Girolamo, J.-Ch. Gayde, and D. Mergelkuhl. “The compensation of the noise due to angular oscillations of the laser beam in the precision laser inclinometer,” Phys. Part. Nucl. Lett. 14, 930–938 (2017). G. D. Shandybina and V. A. Parfenov, Information Laser Technologies (ITMO Univ., St. Petersburg, 2008) [in Russian]. F. Tricot, D. H. Phung, M. Lours, S. Guérandel, and E. de Clercq, “Power stabilization of a diode laser with an acousto-optic modulator,” Rev. Sci. Inst. 89, 113112 (2018). https://doi.org/10.1063/1.5046852 K. V. Kiryunikov and A. V. Shishaev, “Broadband laser radiation intensity stabilization system,” Prib. Tekh. Eksp. No. 6 (1984). I. N. Govor and V. M. Nesterenko, “Laser power stabilizer of an optical quantum generator,” Prib. Tekh. Eksp. No. 3 (1974). H. Huang, J. Ni. H. Wang, J. Zhang, R. Gao, L. Guan, and G. Wang, “A novel power stability drive system of semiconductor laser diode for high-precision measurement,” Meas. Control 52, 462–472 (2019). https://doi.org/10.1177/0020294019840760 P. Kwee, B. Willke, and K. Danzmann, “New concepts and results in laser power stabilization,” Appl. Phys. B 102, 515—522 (2011). V. M. Petropavlovsky and L. V. Toporkova, “Method of laser power stabilization,” Infocomm. Tech. 11, 65—68 (2013). Yu. M. Noikin, “Modulation and Demodulation of the Optical Carrier,” in Methodological Guidelines on the “Physical Foundations of Optical communication”, Part 6 (South Federal Univ., Rostov-on-Don, 2007). L. Ya. Serebrennikov, V. A. Krakovsky, M. V. Chumanov, I. A. Pugachev, and S. M. Shandarov, “Acousto-optical modulators of laser radiation based on nonlinear optical crystals RKTP, in Proceedings of International Scientific and Practical Conference on Electronic Means and Control Systems, 2013, pp. 137–140. V. A. Tabarin, A. Yu. Potocky, and N. A. Ivanova, “Push-pull Faraday modulator of laser radiation,” Bull. Tyumen State Univ. Phys. Math. Modeling, Oil, Gas, Energy 1, 69—74 (2015).