Study of Radiation Characteristics of Intrinsic Josephson Junction Terahertz Emitters with Different Thickness of Bi2Sr2CaCu2O8+δ Crystals

Kashiwagi, Takanari; Yuasa, Takumi; Kuwano, Genki; Yamamoto, Takashi; Tsujimoto, Manabu; Minami, Hidetoshi; Kadowaki, K.

doi:10.3390/ma14051135

Cited by 4 publications

(4 citation statements)

References 79 publications

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“…As shown in Fig. 1 (b), the whole model of a MIMO system could be described by [71,72] 𝒂 ̂𝐵 = 𝑼 † 𝑯𝑽𝒂 ̂𝐴 + 𝑼 † 𝑼𝑺𝒂 ̂𝐸 (20) where 𝒂 ̂𝐵 = [𝑎 ̂𝐵,1 , … , 𝑎 ̂𝐵,𝑁 𝑟 ] 𝑇 is the received mode of Bob, 𝒂 ̂𝐴 = [𝑎 ̂𝐴,1 , … , 𝑎 ̂𝐴,𝑁 𝑡 ] 𝑇 is the transmitted mode of Alice, 𝒂 ̂𝐸 = [𝑎 ̂𝐸,1 , … , 𝑎 ̂𝐸,𝑁 𝑡 ] 𝑇 is the injected Gaussian mode of Eve. 21) is a diagonal matrix with 𝑀 = min(𝑁 𝑡 , 𝑁 𝑟 ).…”

Section: Appendix Amentioning

confidence: 99%

“…A gap in the electromagnetic spectrum exists at these frequency ranges due to the inefficient and unpractical of the devices and circuits [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19]. However, the recent development of electronic, photonic and plasmonic-based mm-waves and THz technologies help close this gap with the demonstration of power-efficient sources [20][21][22][23][24][25][26], antennas [27][28][29][30][31], filters [32][33][34], waveguides [29,[35][36][37][38][39], modulators [40][41][42][43][44][45][46][47][48]…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Millimeter-Waves to Terahertz SISO and MIMO Continuous Variable Quantum Key Distribution

Zhang

Pirandola

Delfanazari

2023

IEEE Trans. Quantum Eng.

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With the exponentially increased demands for large bandwidth, it is important to think about the best network platform as well as the security and privacy of the information in communication networks. Millimetre (mm)-waves and terahertz (THz) with high carrier frequency are proposed as the enabling technologies to overcome Shannon's channel capacity limit of existing communication systems by providing ultrawide bandwidth signals. Mm-waves and THz are also able to build wireless links compatible with optical communication systems. However, most solid-state components that can operate reasonably efficiently at these frequency ranges (100GHz-10THz), especially sources and detectors, require cryogenic cooling, as is a requirement for most quantum systems. Here, we show that secure mm-waves and THz QKD can be achieved when the sources and detectors operate at cryogenic temperatures down to T= 4K. We compare singleinput single-output (SISO) and multiple-input multiple-output (MIMO) Continuous Variable THz Quantum Key Distribution (CVQKD) schemes and find the positive secret key rate in the frequency ranges between f=100 GHz and 1 THz. Moreover, we find that the maximum transmission distance could be extended, the secret key rate could be improved in lower temperatures, and achieve a maximum secrete communication distance of more than 5km at f=100GHz and T=4K by using 1024×1024 antennas. Our results for the first time show the possibility of mm-waves and THz MIMO CVQKD with the system operating at temperatures below T= 50K, which may contribute to the efforts to develop next-generation secure wireless communication systems and quantum internet for applications from inter-satellite and deep space to indoor and short-distance communications.

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Section: Appendix Amentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Millimeter-Waves to Terahertz SISO and MIMO Continuous Variable Quantum Key Distribution

Zhang

Pirandola

Delfanazari

2023

IEEE Trans. Quantum Eng.

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“…In the category of HTS, Bi2Sr2CaCu2O8+δ (BSCCO) based devices have shown a potential to close the THz gap [7][8][9][10][11]. The crystal of HTS BSCCO is a stack of two-dimensional (2D) layers composed of alternating layers of superconducting copper oxides (CuO2) and non-superconducting bismuth/strontium oxides (Bi2O2 and SrO) forming intrinsic Josephson junctions (IJJs) or Josephson medium [12][13][14][15]. Therefore, superconductivity in BSCCO is confined to 2D planes [16] and the relatively weak van der Waals (vdWs) forces between the layers keep the stack together [17].…”

Section: Introductionmentioning

confidence: 99%

Engineering ultrastrong coupling between Josephson plasmon polaritons and subwavelength microcavity arrays in silicon/van der Waals layered superconductor heterostructure for terahertz hybrid circuit cavity quantum electrodynamics

2022

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Engineering ultrastrong coupling between Josephson plasmon polaritons and subwavelength microcavity arrays in silicon/van der Waals layered superconductor heterostructure for terahertz hybrid circuit cavity quantum electrodynamics. Physical Review B, 106(24), 245140.There may be differences between this version and the published version. You are advised to consult the publisher's version if you wish to cite from it.

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“…One can also calculate such a spectrum for the model system and compare it with the experiment. Such calculations become actual recently because of investigations of the coherent emission from high-temperature superconductors which reveal the intrinsic Josephson effect [1][2][3]. Strong coherent emission without applied magnetic field was observed at resonant steps of IV-characteristic of mesa-structures made of these superconductors.…”

Section: Introductionmentioning

confidence: 99%

Emission from Josephson junctions with Gaussian distribution of critical currents

Grib

2021

The Journal of v. N. Karazin Kharkiv National University, Series "Physics"

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The model which allows to obtain the spectrum of emission of systems of Josephson junctions with the inhomogeneous distributions of critical currents along junctions is developed. With the use of this model we study electrical properties of systems in which junctions have the Gaussian distributions of critical currents. In particular, IV-characteristics and power of emission from inhomogeneous junctions with dimensions smaller than the Josephson depth of penetration of magnetic field have been investigated. We showed that for such junctions the dependence of emitted power on voltage (i.e. the spectrum of emission) had maxima at voltages corresponded to Fiske steps in the whole range of voltages, though in the IV-characteristics particularities (nuclei of zero-field steps) were not seen and they could be revealed only in derivatives of these curves. The comparison of our results with similar results which we obtained earlier for long junctions allows to suppose that the investigated mechanism of the formation of zero-field steps is general and it is valid for both long and short junctions. We investigated the averaged on random realizations height of some maximum of emitted power at different values of the Gaussian standard deviation of critical currents and found the square dependence of this height on the dimensionless parameter which characterizes the standard deviation. This result was in agreement with the theory of zero-field steps. We also considered electrical properties and power of emission from the stack of two long interacting with each other Josephson junctions in magnetic field. Each of the junctions had small (about 10-3 %) Gaussian distribution of critical currents. We found that if magnetic field was absent then there were only normal modes in the system (namely, the in-phase mode and the anti-phase mode). Zero-field steps were formed at voltages corresponded to the split even Fiske step. There were only normal modes in the system also when the relation of magnetic field to the value of the magnetic field at which the critical current becomes zero was more than 0.6. When this relation was smaller, other modes existed as well. We supposed that some normal modes could be destroyed because due to magnetic field standing waves were formed at both odd and even Fiske steps, so some modes could be locked with standing waves.

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Study of Radiation Characteristics of Intrinsic Josephson Junction Terahertz Emitters with Different Thickness of Bi2Sr2CaCu2O8+δ Crystals

Cited by 4 publications

References 79 publications

Millimeter-Waves to Terahertz SISO and MIMO Continuous Variable Quantum Key Distribution

Millimeter-Waves to Terahertz SISO and MIMO Continuous Variable Quantum Key Distribution

Engineering ultrastrong coupling between Josephson plasmon polaritons and subwavelength microcavity arrays in silicon/van der Waals layered superconductor heterostructure for terahertz hybrid circuit cavity quantum electrodynamics

Emission from Josephson junctions with Gaussian distribution of critical currents

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