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Koshelets, V. P. (2004). Integrated superconducting submm receivers.
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(2004). Statue of the SIR program for SR&T (extension to 1 THz).
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Koshelets, V. P., Dmitriev, P. N., Ermakov, A. B., Filippenko, L. V., Khudchenko, A. V., Koryukin, O. V., et al. (2004). SIR for TELIS (post-critical) review.
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Koshelets, V. P., Dmitriev, P. N., Ermakov, A. B., Sobolev, A. S., Torgashin, M. Y., Kurin, V. V., et al. (2005). Optimization of the phase-locked flux-flow oscillator for the submm integrated receiver. IEEE Trans. Appl. Supercond., 15(2), 964–967.
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Koshelets, V. P., Shitov, S. V., Ermakov, A. B., Filippenko, L. V., Koryukin, O. V., Khudchenko, A. V., et al. (2005). Superconducting integrated receiver for TELIS. IEEE Trans. Appl. Supercond., 15(2), 960–963.
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Koshelets, V. P., Ermakov, A. B., Filippenko, L. V., Khudchenko, A. V., Kiselev, O. S., Sobolev, A. S., et al. (2007). Superconducting integrated submillimeter receiver for TELIS. IEEE Trans. Appl. Supercond., 17(2), 336–342.
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Torgashin, M. Y., Koshelets, V. P., Dmitriev, P. N., Ermakov, A. B., Filippenko, L. V., & Yagoubov, P. A. (2007). Superconducting Integrated Receiver Based on Nb-AlN-NbN-Nb Circuits. IEEE Trans. Appl. Supercond., 17(2), 379–382.
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Vaks, V. L., Kurin, V. V., Pankratov, A. L., & Koshelets, V. P. (2005). Investigation of spectral properties of phase-focked flux flow oscillator. In ISEC (PD-04). Netherlands.
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Ozhegov, R. V., Okunev, O. V., Gol’tsman, G. N., Filippenko, L. V., & Koshelets, V. P. (2009). Noise equivalent temperature difference of a superconducting integrated terahertz receiver. J. Commun. Technol. Electron., 54(6), 716–720.
Abstract: The dependence of the noise equivalent temperature difference (NETD) of a superconducting integrated receiver (SIR) on the receiver noise temperature and the inputsignal level has been investigated. An unprecedented NETD of 13±2 mK has been measured at a SIR noise temperature of 200 K, intermediate-frequency bandwidth of 4 GHz, and time constant of 1 s. With a decrease in the input signal, an improvement in the NETD is observed. This effect is explained by a reduction in the influence of the instabilities of the receiver power supply and the amplification circuit that occur when the input signal is decreased.
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Koshelets, V. P., & Khudchenko, A. V. (2006). Analysis of spectral characteristics of a superconducting integrated receiver. J. Communications Technol. Electron., 51(5), 596–603.
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