A. Stockhausen scite author profile

A. Stockhausen

5Publications

40Citation Statements Received

96Citation Statements Given

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110

Affiliations

Karlsruhe Institute of Technology

Publications

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Adjustment of self-heating in long superconducting thin film NbN microbridges

Stockhausen

Ilin

Siegel

et al. 2012

Supercond. Sci. Technol.

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The self-heating in long superconducting microbridges made from thin NbN films deposited on top of high silicon mesa structures was studied by analyzing the hysteresis current density jH. We observed a more than twofold decrease of jH with increase in the ratio of the height of the Si mesa, h, to the width of the microbridge, W, from 0 to 24. We describe our experimental results using one-dimensional thermal balance equations taking into account disordered matter in our thin NbN films and limitations imposed on the phonon mean free path by the width of the Si mesa. In the framework of this model we obtain a good agreement between theory and experiment over a wide temperature range from 4.2 K up to the critical temperature TC for all h/W ratios.

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Transient Analysis of THz-QCL Pulses Using NbN and YBCO Superconducting Detectors

Scheuring

Dean

Valavanis

et al. 2013

IEEE Trans. THz Sci. Technol.

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Abstract-We report the time-domain analysis of fast pulses emitted by a quantum cascade laser (QCL) operating at ~3.1 THz using superconducting THz detectors made from either NbN or YBa 2 Cu 3 O 7- (YBCO) thin films. The ultra-fast response from these detectors allows resolution of emission features occurring on a nanosecond time-scale, which is not possible with commercially available Ge or InSb bolometers owing to their much larger time constants. We demonstrate that the timedependent emission can be strongly affected by relatively small variations in the driving pulse. The QCL output power-current relationship was determined, based on correlation of the timedependent emission of radiation with current flow in the QCL, under different QCL bias conditions. We show that this relationship differs from that obtained using bolometric detectors that respond only to the integrated pulse energy. The linearity of the detectors, and their agreement with measurements using a Ge bolometer, was also established by studying the QCL emission as a function of bias voltage and excitation pulse length. This measurement scheme could be readily applied to the study of ultra-fast modulation and mode-locking of THz-QCLs.

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Technology and Performance of THz Hot-Electron Bolometer Mixers

Ilin

Stockhausen

Scheuring

et al. 2009

IEEE Trans. Appl. Supercond.

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Time-resolved measurement of pulse-to-pulse heating effects in a terahertz quantum cascade laser using an NbN superconducting detector

Valavanis

Dean

Scheuring

et al. 2013

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EH (2013) Time-resolved measurement of pulse-to-pulse heating effects in a terahertz quantum cascade laser using an NbN superconducting detector. Applied Physics Letters, 103 (6). 061120-1 -061120-4 (4).http://dx.doi.org/10.1063/1.4818584Time-resolved measurement of pulse-to-pulse heating effects in a terahertz quantum cascade laser using an NbN superconducting detector Joule heating causes significant degradation in the power emitted from terahertz-frequency quantum-cascade lasers (THz QCLs). However, to date, it has not been possible to characterize the thermal equilibration time of these devices, since THz power degradation over sub-millisecond time-scales cannot be resolved using conventional bolometric or pyroelectric detectors. In this letter, we use a superconducting antenna-coupled niobium nitride detector to measure the emission from a THz QCL with a nanosecond-scale time-resolution. The emitted THz power is shown to decay more rapidly at higher heat-sink temperatures, and in steadystate the power reduces as the repetition rate of the driving pulses increases. The pulse-to-pulse variation in active-region temperature is inferred by comparing the THz signals with those obtained from low duty-cycle measurements. A thermal resistance of 8.2 ± 0.6 K/W is determined, which is in good agreement with earlier measurements, and we calculate a 370 ± 90-µs bulk heat-storage time, which corresponds to the simulated heat capacity of the device substrate.

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Dielectric RF properties of CVD diamond disks from sub-mm wave to THz frequencies

Scheuring

Probst

Stockhausen

et al. 2010

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A. Stockhausen

Adjustment of self-heating in long superconducting thin film NbN microbridges

Transient Analysis of THz-QCL Pulses Using NbN and YBCO Superconducting Detectors

Technology and Performance of THz Hot-Electron Bolometer Mixers

Time-resolved measurement of pulse-to-pulse heating effects in a terahertz quantum cascade laser using an NbN superconducting detector

Dielectric RF properties of CVD diamond disks from sub-mm wave to THz frequencies

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