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Li, Mengyue; Yuan, Jie; Kinev, Nickolay V.; Li, Jun; Gross, B.; Guénon, Stefan; Ishii, Akira; Hirata, Kazuto; Hatano, Takeshi; Koelle, D.; Kleiner, R.; Koshelets, V. P.; Wang, Huabing; Wu, Peiheng

doi:10.1103/physrevb.86.060505

Cited by 95 publications

(93 citation statements)

References 52 publications

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“…5,6 Furthermore, it is possible that hot spots form a shunt between the stacked Josephson junctions, thereby promoting their synchronization. 5,11 This is consistent with studies, which find a narrower THz radiation line width from mesas with comparatively high DC power dissipation. 12 Furthermore, it was observed that mesas covered with thick electrodes that homogenize the temperature do not emit THzradiation.…”

Section: Introductionsupporting

confidence: 80%

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Benseman

Koshelev

Kwok

et al. 2013

Journal of Applied Physics

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Stacks of intrinsic Josephson junctions (IJJs) made from high-temperature superconductors such as Bi 2 Sr 2 CaCu 2 O 8þd (Bi-2212) (BSCCO) are a promising source of coherent continuous-wave terahertz radiation. It is thought that at electrical bias conditions under which THz-emission occurs, hot spots may form due to resistive self-heating, and that these spots may be highly beneficial for the generation of high levels of THz power. Here, we perform an imaging study of the temperature distribution at the surface of BSCCO stacks utilizing the temperature-dependent 612 nm fluorescence line of Eu 3þ in a europium chelate. The images directly reveal a highly non-uniform temperature distribution in which the temperature in the middle of the stack can exceed the superconducting transition temperature by tens of Kelvin under biasing conditions typical for THz-emission. V C 2013 American Institute of Physics. [http://dx

show abstract

Section: Introductionsupporting

confidence: 80%

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Benseman

Koshelev

Kwok

et al. 2013

Journal of Applied Physics

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“…To accommodate multiple fluxons and achieve a flux-flow regime, the length of the Josephson junction used as a FFO exceeds the Josephson penetration length by a large factor. The potential of FFO for practical applications has been justified by development of a superconducting integrated receiver (SIR) [65,66] which was successfully used in remote heterodyne spectroscopy of the Earth atmosphere on board of a high-altitude balloon [67,68], as well as first spectral measurements of THz radiation emitted from intrinsic Josephson junction stacks (BSCCO mesa) at frequencies up to 750 GHz [69,70].…”

Section: Model Of Josephson Flux-flow Oscillatormentioning

confidence: 99%

Josephson flux-flow oscillator: The microscopic tunneling approach

2017

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Citation: GULEVICH, D.R., KOSHELETS, V.P. and KUSMARTSEV, F.V., 2017.Josephson flux-flow oscillator:The microscopic tunneling approach.Physical Review B, 96 (2), 024515-1 -024515-12.Additional Information:• We elaborate a theoretical description of large Josephson junctions which is based on Werthamer's microscopic tunneling theory. The model naturally incorporates coupling of electromagnetic radiation to the tunnel currents and, therefore, is particularly suitable for description of the self-coupling effect in Josephson junction. In our numerical calculations we treat the arising integro-differential equation, which describes temporal evolution of the superconducting phase difference coupled to the electromagnetic field, by the Odintsov-Semenov-Zorin algorithm. This allows us to avoid evaluation of the time integrals at each time step while taking into account all the memory effects. To validate the obtained microscopic model of large Josephson junction we focus our attention on the Josephson flux-flow oscillator. The proposed microscopic model of flux-flow oscillator does not involve the phenomenological damping parameter, rather the damping is taken into account naturally in the tunnel current amplitudes calculated at a given temperature. The theoretically calculated current-voltage characteristics is compared to our experimental results obtained for a set of fabricated flux-flow oscillators of different lengths.

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“…The THz emission properties of the IJJ stacks are affected by the hot spot. For example, it has been found that the linewidth of radiation is much narrower in the high-bias regime than at low bias 12,60 . Other properties such as the emission frequency seem to be basically independent of the hot spot position, leading to some debate as to whether the hot spot is helpful for radiation or just coexists with the radiating regions 20,22,23 .…”

Section: Introductionmentioning

confidence: 99%

Three-Dimensional Simulations of the Electrothermal and Terahertz Emission Properties ofBi2Sr2CaCu2
Rudau
¹
,
Wieland
²
,
Langer
³

et al. 2016
Phys. Rev. Applied
29
0
27
0
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We used 2D coupled sine-Gordon equations combined with 3D heat diffusion equations to numerically investigate the thermal and electromagnetic properties of a 250 × 70 µm 2 intrinsic Josephson junction stack. The 700 junctions are grouped to 20 segments; we assume that in a segment all junctions behave identically. At large input power a hot spot forms in the stack. Resonant electromagnetic modes, oscillating either along the length ((0, n) modes) or the width ((m, 0) modes) of the stack or having a more complex structure, can be excited both with and without a hot spot. At fixed bath temperature and bias current several cavity modes can coexist in the absence of a magnetic field. The (1, 0) mode, considered to be the most favorable mode for THz emission, can be stabilized by applying a small magnetic field along the length of the stack. A strong field-induced enhancement of the emission power is also found in experiment, for an applied field around 5.9 mT.

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Linewidth dependence of coherent terahertz emission from Bi2Sr2CaCu2O
Mengyue Li
¹
,
Jie Yuan
²
,
Nickolay V. Kinev
³

et al.

Cited by 95 publications

References 52 publications

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Josephson flux-flow oscillator: The microscopic tunneling approach

Three-Dimensional Simulations of the Electrothermal and Terahertz Emission Properties ofBi2Sr2CaCu2
Rudau
¹
,
Wieland
²
,
Langer
³

et al. 2016
Phys. Rev. Applied
29
0
27
0
View full text Add to dashboard Cite

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Linewidth dependence of coherent terahertz emission from Bi2Sr2CaCu2OMengyue Li1, Jie Yuan2, Nickolay V. Kinev3 et al.

Cited by 95 publications

References 52 publications

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Direct imaging of hot spots in Bi2Sr2CaCu2O8+δ mesa terahertz sources

Josephson flux-flow oscillator: The microscopic tunneling approach

Three-Dimensional Simulations of the Electrothermal and Terahertz Emission Properties ofBi2Sr2CaCu2Rudau1, Wieland2, Langer3 et al. 2016Phys. Rev. Applied290270View full textAdd to dashboardCite

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Product

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About

Linewidth dependence of coherent terahertz emission from Bi2Sr2CaCu2O
Mengyue Li
¹
,
Jie Yuan
²
,
Nickolay V. Kinev
³

et al.

Three-Dimensional Simulations of the Electrothermal and Terahertz Emission Properties ofBi2Sr2CaCu2
Rudau
¹
,
Wieland
²
,
Langer
³

et al. 2016
Phys. Rev. Applied
29
0
27
0
View full text Add to dashboard Cite