Abonnement à la biblothèque: Guest
Telecommunications and Radio Engineering

Publication de 12  numéros par an

ISSN Imprimer: 0040-2508

ISSN En ligne: 1943-6009

SJR: 0.185 SNIP: 0.268 CiteScore™:: 1.5 H-Index: 22

Indexed in

LOCALIZED WAVES IN LAYERED SUPERCONDUCTORS

Volume 78, Numéro 7, 2019, pp. 615-631
DOI: 10.1615/TelecomRadEng.v78.i7.60
Get accessGet access

RÉSUMÉ

In this review, the propagation of electromagnetic waves localized near the boundary of a layered superconductor sample with the layers either parallel or perpendicular to its surface is discussed. The results obtained in a series of studies on investigating the dispersion relation for such waves are generalized, classified and supplemented. Because of the strong anisotropy and nonlinearity of the Josephson plasma in layered superconductors the localized waves can possess unusual resonance properties, and their excitation can be accompanied by specific resonance phenomena. The electromagnetic field in a layered superconductor is determined by the distribution of the gauge-invariant phase difference of the order parameter that satisfies the set of coupled sine-Gordon equations. Based on the solution of these equations and also on the Maxwell's equations in a dielectric environment, dispersion relations have been derived for the localized electromagnetic waves. The samples of a layered superconductor whose layers are parallel to its boundary can support propagation of both surface waves and waveguide modes characterized by the normal dispersion. The dispersion relation for the samples whose layers are perpendicular to the boundary is dependent on the angle of wave propagation with respect to the superconducting layers. It has first been shown in this paper that the waves localized in a plate of a layered superconductor are characterized by the anomalous dispersion for all directions except propagation strictly along the layers. The dispersion curves for such waves can have point of maximum and/or minimum that can lead to nontrivial effects, for example, to the light stop or internal reflection. Also, excitation of localized waves and unusual resonance effects arising in this case are discussed in the paper. Because of the strong anisotropy and nonlinearity of the layered superconductor the dispersion relations for the waves localized either in semi-infinite samples or in plates possess a number of interesting features giving rise to new phenomena important for application in the terahertz range physics.

RÉFÉRENCES
  1. Kamihara, Y., Hiramatsu, H., Hirano, M., Kawamura, R. et al., (2006) , Iron-based layered superconductor: LaOFeP, J. Am. Chem. Soc., 128(31), pp. 10012-10013. DOI: 10.1021/ja063355c

  2. Kleiner, R., Steinmeyer, F., Kunkel, G., and Muller, P., (1992), Intrinsic Josephson effects in Bi<sub>2</sub>Sr<sub>2</sub>CaCu<sub>2</sub>O<sub>8+&delta;</sub> single crystals, Phys. Rev. Lett., 68(15), pp. 2394-2397. DOI: 10.1103/PhysRevLett.68.2394

  3. Wait, J.R., (1985) , Electromagnetic Wave Theory, New York: Harper and Row.

  4. Mills, D.L., (1998) , Nonlinear Optics: Basic Concepts, Berlin: Springer.

  5. Rajaraman, R., (1987) , Solitons and Instantons: An Introduction to Solitons and Instantons in Quantum Field Theory, Amsterdam: North-Holland.

  6. Tonouchi, M., (2007) , Cutting-edge terahertz technology, Nat. Photonics, 1(2), pp. 97-105. DOI: 10.1038/nphoton.2007.3

  7. Capasso, F., Gmachl, C., Sivco, D.L., and Cho, A.Y., (2002) , Quantum Cascade Lasers, Phys. Today, 55(5), pp. 34-40. DOI: 10.1063/1.1485582

  8. Koshelets, V.P. and Shitov, S.V., (2000) , Integrated superconducting receivers, Supercond. Sci. Technol., 13(5), pp. R53-R69. DOI: 10.1088/0953-2048/13/5/201

  9. Kleiner, R., (2007) , Filling the Terahertz Gap, Science, 318(5854), pp. 1254-1255. DOI: 10.1126/ science.1151373

  10. Savel'ev, S., Yampol'skii, V.A., Rakhmanov, A.L., and Nori, F., (2010) , Terahertz Josephson plasma waves in layered superconductors: spectrum, generation, nonlinear and quantum phenomena, Rep. Prog. Phys., 73(2), pp. 026501 (9 p.). DOI: 10.1088/ 0034-4885/73/2/026501

  11. Yampol’skii, V.A., Kats, A.V., Nesterov, M.L., Nikitin, A.Yu. et al., (2009) , Resonance effects due to the excitation of surface Josephson plasma waves in layered superconductors, Phys. Rev. B, 79(21), p. 214501 (8 p.). DOI: 10.1103/PhysRevB.79.214501

  12. Golick, V.A., Kadygrob, D.V., Yampol'skii, V.A., Rakhmanov, A.L. et al., (2010), Surface Josephson Plasma Waves in Layered Superconductors above the Plasma Frequency: Evidence for a Negative Index of Refraction, Phys. Rev. Lett., 104(18), p. 187003 (4 p.). DOI: 10.1103/PhysRevLett. 104.187003

  13. Slipchenko, T.M., Kadygrob, D.V., Bogdanis, D., Yampol'skii, V.A., and Krokhin, A.A., (2011) , Surface and waveguide Josephson plasma waves in slabs of layered superconductors, Phys. Rev. B, 84(22), p. 224512 (8 p.). DOI: 10.1103/PhysRevB. 84.224512

  14. Apostolov, S.S., Maizelis, Z.A., Sorokina, M.A., and Yampol'skii, V.A., (2010) , Nonlinear wood anomalies in the reflectivity of layered superconductors, Low Temp. Phys., 36(3), pp. 255-261. DOI: 10.1063/1.3331418

  15. Averkov, Yu.O., Yakovenko, V.M., Yampol’skii, V.A., and Nori, F., (2012), Conversion of Terahertz Wave Polarization at the Boundary of a Layered Supercondutor due to the Resonance Excitation of Oblique Surface Waves, Phys. Rev. Lett., 109(2), p. 027005 (5 p.). DOI: 10.1103/PhysRevLett.109.027005

  16. Averkov, Yu.O., Yakovenko, V.M., Yampol’skii, V.A., and Nori, F., (2013) , Oblique surface Josephson plasma waves in layered superconductors, Phys. Rev. B, 87(5), p. 054505 (8 p.). DOI: 10.1103/ PhysRevB.87.054505

  17. Yampol'skii, V.A., Gulevich, D.R., Savel'ev, S., and Nori, F., (2008) , Surface plasma waves across the layers of intrinsic Josephson junctions, Phys. Rev. B, 78(5), p. 054502 (4 p.). DOI: 10.1103/PhysRevB. 78.054502

  18. Kadygrob, D.V., Golick, V.A., Yampol'skii, V.A., Slipchenko, T.M. et al., (2009) , Excitation of surface plasma waves across the layers of intrinsic Josephson junctions, Phys. Rev. B, 80(18), p. 184512 (10 p.). DOI: 10.1103/ PhysRevB.80.184512

  19. Apostolov, S.S., Maizelis, Z.A., Yampol'skii, V.A., and Havrilenko, V.I., (2017) , Anomalous dispersion of surface and waveguide modes in layered superconductor slabs, Low Temp. Phys., 43(2), pp. 296-302. DOI: 10.1063/1.4977740

  20. Apostolov, S.S., Kadygrob, D.V., Maizelis, Z.A., Nikolaenko A.A. et al., (2018) , Normal and anomalous dispersion of weakly nonlinear localized modes in a slab of a layered superconductive material, Telecommunications and Radio Engineering, 77(2), pp. 131-144.

  21. Apostolov, S.S., Kadygrob, D.V., Maizelis, Z.A., Nikolaenko, A.A., and Yampol’skii, V.A., (2018) , Nonlinear localized modes in a plate of a layered superconductor, Low Temp. Phys., 44(3), pp. 238- 246. DOI: 10.1063/1.5024544

  22. Rokhmanova, T., Apostolov, S.S., Kvitka, N., and Yampol’skii, V. A., (2018) , Effect of a dc magnetic field on the anomalous dispersion of localized josephson plasma modes in layered superconductors, Low Temp. Phys., 44(6), pp. 552-560. DOI: 10.1063/1.5037558

  23. Apostolov, S.S., Makarov, N.M., and Yampol’skii, V.A., (2018) , Excitation of terahertz modes localized on a layered superconductor: Anomalous dispersion and resonant transmission, Phys. Rev. B, 97(2), pp. 024510 (11 p.). DOI: 10.1103/PhysRevB. 97.024510.

  24. Helm, Ch. and Bulaevskii, L.N., (2002) , Optical properties of layered superconductors near the Josephson plasma resonance, Phys. Rev. B, 66(9), p. 094514 (23 p.). DOI: 10.1103/PhysRevB.66.094514

  25. Artemenko, S.N. and Remizov, S.V., (2001) , Stability, collective modes and radiation from sliding Josephson vortex lattice in layered superconductors, Physica C, 362(1–4), pp. 200-204. DOI: 10.1016/S0921-4534(01)00670-0

Prochains articles

A Slotted Pentagon Shape Quad Band Two-Element Millimeter Wave MIMO Antenna using Theory of Characteristic Modes Parveez Shariff B G, Sameena Pathan, Pallavi R Mane, Tanweer Ali Design and Develop Low power memory controller for GC-eDRAM cell using ICG Shravan Chintam, Kaleem Fatima, Paidimarry Chandra sekhar Lighting up Data: The Future of Wireless Data Transfer with Li-Fi Technology Balaka Biswas, Aryan Nakhale , Aditya Roshan Sinha Design of Implantable Antennas for Biomedical Applications M Satish Kumar, Sivasubramanyam Medasani , Penchala Reddy Sura, Tathababu Addepalli, Jetti Chandra Sekhar Rao, J Prasanth Kumar, B.Y.V.N.R. Swamy, A L Siridhara Diffraction Problem with Time-Varying Boundary Conditions Fatih Erden A Proposed MIMO Antenna Design for Ultra-Wideband THz Applications Amin Al Ka'bi, Ali Mustafa Interconnection scheme for multi-protocols heterogeneous wireless communication system in civil airport Wei Zhang, He Li, Yuchu Ji, Yang Wang Design and implementation of MIMO antenna for S-band satellite applications Suganya E, Anita Jones Mary Pushpa T, Prabhu T PROPAGATION OF VECTOR VORTEX BEAMS EXCITED BY A TERAHERTZ LASER DIELECTRIC RESONATOR Anrey Degtyarev, Mykola Dubinin, Vyacheslav Maslov, Konstantin Muntean, Oleg Svistunov DEVELOPMENT OF NOVEL CONFORMAL ARRAY ANTENNA FOR AIRBORNE APPLICATIONS Ch V Ravi Sankar, PVY Jayasree, Devana V.N Koteswara Rao , Mohammad Taj, Kolasani Rajkamal, Vegiraju Satya Sudha Hexagonal-Shaped Antenna with DGS for Band-notch Ultra-Wideband and V2X Applications Rahul Kumar Garg, Sarthak Singhal Research and design of multi-attitude DF-GNNRL simulation technology based on satellite downlink beam calculation Liping Qiao, Li Zhang, Lei Feng A Design of Microstrip Low-pass Filter using ground-plane coplanar waveguide (GCPW) Farah Mehdi Chemseddine, Elbouslemti Rahmouna, Vincent Didier Earthen Lamp Shaped DGS Dual Band Microstrip Patch Antenna for High Return Loss in Biomedical Application Sonam Gour, Amit Rathi Compact Inset-Fed Rectangular Patch antenna for C band Applications Albert William raj, K.S.Joseph Wilson Planar Antenna with Pattern Reconfigurability for IoT Applications Srinag A, S. Aruna, K.Srinivasa Naik Advanced Ultrawideband Patch Antenna for Wearable and WBAN Applications Raaunak Chaudhury, Bimal Raj Dutta A COMPACT 2X2 UWB MIMO ANTENNA WITH FUNNEL SHAPED STUB FOR ISOLATION ENHANCEMENT KARTHI J, Palanivelan Manickavelu, Mohanraj Sivagurunathan, Asokan Velu FLEXIBLE WIDE BAND TRAPEZOIDAL ANTENNA FOR ELECTROMAGENTIC HEAD IMAGING SYSTEM Vaithianathan V, Ramprabhu Sivasamy, RAMESH S, Chitra S Impact of supply voltage on SRAM cell power dissipation under different topologies Damodhar Rao M, Y.V. NARAYANA, V.V.K.D.V. PRASAD Defected Ground Square Patch Edge Truncated Polarization Reconfigurable Antenna Pritam Nikam, Jayendra Kumar, Akshay Bhosale, Achinta Baidya, Shahadev Hake An Asymmetrical Psi Shaped Multi-Band Antenna for Wireless Applications Penchala Reddy Sura, Padmaja Nimmagadda, Ch Jyotsna Rani, Tathababu Addepalli, Jagadeesh Babu Kamili, B.Y.V.N.R. Swamy Swamy, A Laxmana Siridhara, G JAGADEESWAR REDDY SMALL SCALE MIMO ANTENNA WITH HIGH ISOLATION FOR 5G COMMUNICATION DILIP KUMAR CHOUDHARY, Tanweer Ali, Rajendra Prasad P, Roshan Zameer Ahmed PERFORMANCE ANALYSIS OF ACHIEVABLE BIT RATES IN RIS-ASSISTED MASSIVE MIMO NETWORKS AT 28 GHZ BAND SHARINI DL, KANTHI M, RAVILLA DILLI EFFECT OF THICK VEGETATION COVER, BUILDING OBSTRUCTIONS, AND EARTH TERRAIN ON THE QUALITY AND PERFORMANCE OF THE GSM SIGNAL AT THE FEDERAL POLYTECHNIC ADO EKITI. Temitope John Alake, Ayodeji Bamisaye, Tolulope Tunji Oladimeji FOUR ELEMENT CIRCULAR PATCH MIMO ANTENNA WITH PROTRUDING GROUND STUB FOR 5G COMMUNICATION Rajalakshmi B, Chitra S DUAL-BAND BANDSTOP FILTERS BASED ON ULTRA THIN FREQUENCY SELECTIVE SURFACES Andrei Perov REAL-TIME IMPLEMENTATION OF LWT BASED NOVEL IR AND VI FUSION ALGORITHM USING RASPBERRY PI PLATFORM Lingamallu Naga Srinivasu, Sumanth Kumar Panguluri, Srinivasa Rao Kandula, Ponduri Vasanthi Fractal Based UWB-MIMO antenna with reconfigurable Band-Notching Characteristics Bharghava Punna, Mohd Sofiyan, N. Siddartha Reddy, Nagarani Bollam
Portail numérique Bibliothèque numérique eBooks Revues Références et comptes rendus Collections Prix et politiques d'abonnement Begell House Contactez-nous Language English 中文 Русский Português German French Spain