Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Barannik, A. A.
Cherpak, N. T.
Glamazdin, V. V.
He, Y.-S.
Sun, L.
Bian, Y.
and
Wang, J.
2016.
On possibily of creating HTS microstrip quasi-optical resonator.
p.
1.
Barannik, A. A.
Cherpak, N. T.
Protsenko, I. A.
Gubin, A. I.
Kireev, D.
and
Vitusevich, S.
2018.
Contactless exploration of graphene properties using millimeter wave response of WGM resonator.
Applied Physics Letters,
Vol. 113,
Issue. 9,
Phatharacorn, Prateep
Chaingga, Surasak
Ali, Jalil
and
Yupapin, Preecha
2018.
Micro-optical probe model using integrated triple microring resonators for vertical depth identification.
Microsystem Technologies,
Vol. 24,
Issue. 8,
p.
3513.
Averkov, Yu. O.
Prokopenko, Yu. V.
and
Yakovenko, V. M.
2019.
Eigenwave Spectra of an Anisotropic Cylindrical Solid-State Waveguide.
Technical Physics,
Vol. 64,
Issue. 1,
p.
1.
Averkov, Yu.O.
Prokopenko, Yu.V.
and
Yakovenko, V.M.
2019.
HELICONS IN PLASMA SOLID-STATE WAVEGUIDE OF CYLINDRICAL CONFIGURATION.
Problems of Atomic Science and Technology,
p.
19.
Barannik, Alexander A.
Cherpak, Nickolay T.
Protsenko, Irina A.
and
Vitusevich, Svetlana A.
2019.
Millimeter-Wave WGM Resonator-Based Characterization of Continuous and Noncontinuous Ultrathin Cu Films.
IEEE Microwave and Wireless Components Letters,
Vol. 29,
Issue. 5,
p.
363.
Protsenko, I.
Barannik, A.
Cherpak, N.
Gubin, A.
Kireev, D.
and
Vitusevich, S.
2019.
WGM Resonators for Conductivity Measurements of Graphene Films.
p.
531.
Barannik, A. A.
Cherpak, N. T.
Wu, Y.
Zhang, X. Q.
Wang, J.
Dong, X. L.
Sun, L.
and
He, Y. S.
2020.
Microwave impedance study of superconducting (Li1-xFex)OHFeSe single crystal.
Journal of Physics: Conference Series,
Vol. 1559,
Issue. 1,
p.
012054.
Averkov, Yu.O.
Prokopenko, Yu.V.
and
Yakovenko, V.M.
2020.
Helicons in Solid-State Plasma of Cylindrical Configuration.
p.
1006.
Derkach, V.
Alekseev, E.
Golovashchenko, R.
Ostryzhnyi, Y.
Meshcheryakov, A.
and
Tarapov, S.
2020.
A low temperature study of electromagnetic energy loss in low-loss materials in the 110…140 MHz frequency range.
RADIOFIZIKA I ELEKTRONIKA,
Vol. 25,
Issue. 3,
p.
42.
Ramella, Chiara
Pirola, Marco
and
Corbellini, Simone
2021.
Accurate Characterization of High-$Q$ Microwave Resonances for Metrology Applications.
IEEE Journal of Microwaves,
Vol. 1,
Issue. 2,
p.
610.
Lucido, Mario
Balaban, Mykhaylo V.
and
Nosich, Alexander I.
2021.
Plane wave scattering from thin dielectric disk in free space: Generalized boundary conditions, regularizing Galerkin technique and whispering gallery mode resonances.
IET Microwaves, Antennas & Propagation,
Vol. 15,
Issue. 10,
p.
1159.
Averkov, Y.
Prokopenko, Y.
and
Yakovenko, V.
2021.
Eigenwave spectra of a solid-state plasma cylinder in a strong longitudinal magnetic field.
RADIOFIZIKA I ELEKTRONIKA,
Vol. 26,
Issue. 2,
p.
37.
Arroo, Daan M.
Alford, Neil McN.
and
Breeze, Jonathan D.
2021.
Perspective on room-temperature solid-state masers.
Applied Physics Letters,
Vol. 119,
Issue. 14,
Ghigo, Gianluca
and
Torsello, Daniele
2022.
Microwave Analysis of Unconventional Superconductors with Coplanar-Resonator Techniques.
p.
3.
Barannik, Oleksander
Protsenko, Irvna
Cherpak, Mykola
and
Vitusevich, Svitlana
2022.
Q-Factor of Microstrip WGM Resonators Based on YBaCuO and Normal Metal Films.
p.
27.
Barannik, A.
Protsenko, I.
Vitusevich, S.
Torokhtii, K.
and
Cherpak, N.
2024.
HTS Microstrip Resonators Excited on WGM and Fundamental Mode: Q-Factor.
IEEE Transactions on Applied Superconductivity,
Vol. 34,
Issue. 3,
p.
1.
Krasnok, Alex
Dhakal, Pashupati
Fedorov, Arkady
Frigola, Pedro
Kelly, Michael
and
Kutsaev, Sergey
2024.
Superconducting microwave cavities and qubits for quantum information systems.
Applied Physics Reviews,
Vol. 11,
Issue. 1,
Mikhnev, Valeri
Cywinski, Grzegorz
Rumyantsev, Sergey
Stelmaszczyk, Kamil
and
Knap, Wojciech
2024.
Determination of the ppm-Level Moisture Content in Dielectric Materials using Higher-Order Modes of a Dielectric Disk Resonator.
p.
244.