Search Results - "Zhadnov, N. O."

Active Pointing System for the Transmission of Ultrastable Optical Frequency Signals through an Open-Air Link by Legoshin, A. D., Liskova, K. A., Kudeyarov, K. S., Vishnyakova, G. A., Mironchuk, E. S., Zhadnov, N. O., Kryuchkov, D. S., Khabarova, K. Yu, Kolachevsky, N. N.

“…An active pointing system has been developed and created for an atmospheric transfer link for ultrastable optical frequency signals. This system can…”
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Partial Compensation of Thermal Noise in the Fundamental Mode of an Optical Cavity by Zhadnov, N. O., Kolachevsky, N. N.

“…Thermal noise of optical cavities limits the accuracy of many experiments on precision laser spectroscopy and interferometry. The study of the physical…”
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Comparison of Three Ultrastable Lasers with a Femtosecond Frequency Comb by Kudeyarov, K. S., Golovizin, A. A., Borisenko, A. S., Zhadnov, N. O., Zalivako, I. V., Kryuchkov, D. S., Chiglintsev, E. O., Vishnyakova, G. A., Khabarova, K. Yu, Kolachevsky, N. N.

“…The comparison of optical oscillators is used both to determine their spectral characteristics and to perform fundamental research. To describe each individual…”
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Mirror Deformation and Zero Thermal Expansion Temperature Shift in Optical Cavity due to Radiative Heating by Shakirov, M. I., Zhadnov, N. O., Kryuchkov, D. S., Kudeyarov, K. S., Khabarova, K. Yu, Kolachevsky, N. N.

“…A detailed study of the effects resulting in fluctuations and shifts of eigenfrequencies of optical cavities is necessary for their application in optical…”
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Thermo-Optical Bistability in a Compact High-Q Cavity at a Wavelength of 1550 nm by Vishnyakova, G. A., Kryuchkov, D. S., Voronova, T. A., Kudeyarov, K. S., Chiglintsev, E. O., Zhadnov, N. O., Khabarova, K. Yu, Kolachevsky, N. N.

“…— The bistability effect caused by radiation absorption in mirrors of a compact high-Q cavity at a wavelength of 1550 nm is studied. The effect leads to a…”
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Compact High-Finesse ULE Cavities for Laser Frequency Stabilization by Kryuchkov, D. S., Kudeyarov, K. S., Vishnyakova, G. A., Zhadnov, N. O., Khabarova, K. Yu, Kolachevsky, N. N.

“…Laser systems stabilized by reference cavities have many applications in science and modern technologies. In this research, a compact high-finesse cavity made…”
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Long ULE Cavities with Relative Fractional Frequency Drift Rate below 5 × 10–16/s for Laser Frequency Stabilization by Zhadnov, N. O., Kudeyarov, K. S., Kryuchkov, D. S., Vishnyakova, G. A., Khabarova, K. Yu, Kolachevsky, N. N.

“…Two ultrastable laser systems for the clock transition spectroscopy in the strontium frequency standard are developed. The high stability of laser radiation…”
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Cryogenic and large-base Fabry-Perot cavities for ultra-stable laser systems by Kryuchkov, Denis S., Zhadnov, N.O., Kudeyarov, K.S., Semerikov, I.A., Khabarova, K.Yu, Kolachevskiy, N.N.

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Ultra-Stable Atmospheric Short Link for the Optical Frequency Signal Transfer by Vishnyakova, G. A., Kudeyarov, K. S., Chiglintsev, E. O., Zhadnov, N. O., Kryuchkov, D. S., Khabarova, K. Yu, Kolachevsky, N. N.

“…The 17 m open-air link for coherent transfer of ultrastable optical frequency signal have been demonstrated. The fractional frequency instability caused by air…”
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