Frequency and temperature control for complex system engineering in optics and electronics

Abstract : To take advantage of the physical principles of determining parameters such as frequency stability, noise but also alignment of optical signals, it is necessary to control complex systems. This work allows to explain it through various concrete cases such as the determination of phase noise of microwave oscillators [1 - 5], the control of the temperature of the manufacturing process of optical components [6 - 11] or instrumentation involving Brillouin scattering stimulation [12]. We also discuss the estimation of the uncertainty associated with the measurement results, as it is fondamental to control the error range [13, 14]. References: [1] Salzenstein P., Kuna A., Sojdr L. and Chauvin J., "Significant step in ultra high stability quartz crystal oscillators," Electronics Letters 46(21), 1433–1434, (2010). [2] Salzenstein P., Kuna A., Sojdr L., Sthal F., Cholley N. and Lefebvre F., "Frequency stability measurements of ultra-stable BVA resonators and oscillators," Electronics Letters 46(10), 686-688 (2010). [3] Salzenstein P., Cholley N., Kuna A., Abbé P., Lardet-Vieudrin F., Sojdr L. and Chauvin J., "Distributed amplified ultra-stable signal quartz oscillator based," Measurement 45(7), 1937–1939 (2012). [4] Sthal F., Imbaud J., Vacheret X., Salzenstein P., Cibiel G. and Galliou S., "Computation method for the short-term stability of quartz crystal resonators obtained from passive phase noise measures," IEEE Trans. on UFFC, 60(7), 1530–1532 (2013). [5] Salzenstein P., "Recent progress in the performances of ultrastable Quartz resonators and oscillators," Int. J. for Sim. and Mult. Design Optimization 7, A8 (6) (2016). [6] Salzenstein P., Cussey J., Jouvenceau X., Tavernier H., Larger L., Rubiola E., Sauvage G., "Realization of a Phase Noise Measurement Bench Using Cross Correlation and Double Optical Delay Line," Acta Physica Polonica A, 112(5), 1107-1111 (2007). [7] Volyanskiy K., Salzenstein P., Tavernier H., Pogurmirskiy M., Chembo Y. K. and Larger L., "Compact Optoelectronic Microwave Oscillators using Ultra-High Q Whispering Gallery Mode Disk-Resonators and Phase Modulation," Optics Express 18(21), 22358-22363 (2010). [8] Salzenstein P., Mortier M., Sérier-Brault H., Henriet R., Coillet A., Chembo Y. K., Rasoloniaina A., Dumeige Y., Féron P., "Coupling of high quality factor optical resonators," Physica Scripta, T157, 014024 (2013). [9] Salzenstein P., Voloshinov V. B. and Trushin A. S., "Investigation in acousto-optic laser stabilization for crystal resonator based optoelectronic oscillators," Optical Engineering 52(2), 024603 (2013). [10] Salzenstein P., Diallo S., Zarubin M., "Electrically driven thermal annealing set-up dedicated to high quality factor optical resonator fabrication," Journal of Power Technologies 98(2), 198-201 (2018). [11] Salzenstein P., "An example of design, optimization, stabilization and noise performances of resonator based optoelectronic oscillators," Int. J. for Sim. and Mult. Design Optimization 10, A2 (2019). [12] Salzenstein P., "Brillouin light scattering for the characterization of bulk and surface elastic waves," Invited Seminar at Instituto di Fotonica e Nanotecnologie (IFN-CNR), Trento , Italia, 11 Sept. 2018. [13] Salzenstein P., Pavlyuchenko E., Hmima A., Cholley N., Zarubin M., Galliou S., Chembo Y. K. and Larger L., "Estimation of the uncertainty for a phase noise optoelectronic metrology system," Physica Scripta T 149, 014025 (2012). [14] Salzenstein P., Wu T. Y., "Uncertainty analysis for a phase-detector based phase noise measurement system," Measurement 85, 118–123 (2016).
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https://hal.archives-ouvertes.fr/hal-02279839
Contributor : Patrice Salzenstein <>
Submitted on : Thursday, September 5, 2019 - 3:40:13 PM
Last modification on : Tuesday, September 10, 2019 - 11:15:08 AM

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  • HAL Id : hal-02279839, version 1

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Patrice Salzenstein. Frequency and temperature control for complex system engineering in optics and electronics. 2nd International Conference on Mechatronics and Computer Technology Engineering (MCTE 2019), AEIC学术交流中心, Aug 2019, Guangzhou, China. ⟨hal-02279839⟩

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