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Konstantin Gerasimov
Researcher
Kazan Quantum Center
Interests
High Resolution Spectroscopy
Rare earth ions
Quantum memories
Education
Candidate of Science
Zavoisky Physical-Technical Institute
Spc
Kazan State University
Latest
Pulse-area theorem in a single-mode waveguide and its application to photon echo and optical memory in $\text{Tm}^{3+}:\text{Y}_3\text{Al}_5\text{O}_{12}$
Toward Highly Efficient Multimode Superconducting Quantum Memory
Implementing optical quantum memory in a TM3+:Y3AL5O12 crystal waveguide
Linear Stark effect in $Y_3Al_5O_{12}:Tm^{3+}$ crystal and its application in the addressable quantum memory protocol
Two-pulse photon echo area theorem in an optically dense medium
CNOT gate on reverse photon modes in a ring cavity
Crystal field and hyperfine structure of $^{167}Er^{3+}$ in $YPO_4$:Er single crystals: High-resolution optical and EPR spectroscopy
Quantum memory in the revival of silenced echo scheme in an optical resonator
Broadband multiresonator quantum memory-interface
Observation and investigation of narrow optical transitions of 167Er3+ ions in femtosecond laser printed waveguides in 7LiYF4 crystal
Experimental realization of revival of silenced echo memory protocol in optical cavity
Photon echo area theorem for Gaussian laser beams
Realization of the revival of silenced echo (ROSE) quantum memory scheme in orthogonal geometry
Photon echo of an ultranarrow optical transition of 167Er3+ in 7LiYF4 crystals
Microwave Spin Frequency Comb Memory Protocol Controlled by Gradient Magnetic Pulses
DC Stark addressing for quantum memory in Tm:YAG
High-resolution magneto-optical spectroscopy of $^{7}\text{LiYF}_4:^{167}\text{Er}^{3+}, ^{166}\text{Er}^{3+}$ and analysis of hyperfine structure of ultranarrow optical transitions
Spin frequency comb echo memory controlled by a pulsed-gradient of magnetic field
Room-temperature storage of electromagnetic pulses on a high-finesse natural spin-frequency comb
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