Dr. Boon Kok Tan

Investigation of the dynamic range of superconducting nano-bridge switches

Proceedings of the International Symposium on Space Terahertz Technology IEEE (2015)

Authors:

Boon Tan, Ghassan Yassin, Ernst Otto, Leonid Kuzmin

Abstract:

We present the design of planar superconducting on/off switch comprising a number of high normal resistance nano-bridges deposited across a the slot of a unilateral finline. We have simulated the performance of this device and have shown that it has a much larger dynamic range than a single nano-bridge fabricated from the same material (Niobium Nitride, NbN). The response of a single bridge device was measured either directly using a terahertz power meter or by using superconductor-insulator-superconductor (SIS) device as direct detector. In either method, we have demonstrated good agreement between simulations and measurements, and therefore confirmed the integrity of our analysis of the device performance. We have recently designed and fabricated multiple nano-bridges superconducting switches using 50 µm thick NbN film. The measurement of these devices is currently in progress and we expect to report the results in the forthcoming ISSTT conference in March.

A single-chip dual-band switched SIS mixer

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 9153 (2014) 91532o-91532o-10

Authors:

Boon Kok Tan, Ghassan Yassin, Stafford Withington

Ultra-Wide Intermediate Bandwidth for High-Frequency SIS Mixers

IEEE Transactions on Terahertz Science and Technology Institute of Electrical and Electronics Engineers (IEEE) 4:2 (2014) 165-170

Authors:

Boon-Kok Tan, Ghassan Yassin, Paul Grimes

Development of a NbN Deposition Process for Superconducting Quantum Sensors

(2014)

Authors:

DM Glowacka, DJ Goldie, S Withington, H Muhammad, G Yassin, BK Tan

A superconducting millimetre switch with multiple nano-bridges

ISSTT 2014 - 25th International Sympsoium on Space Terahertz Technology, Proceedings (2014) 164-169

Authors:

BK Tan, G Yassin, L Kuzmin, E Otto, H Merabet, C North

Abstract:

In this paper, we describe the design of a planar superconducting on/off switch comprising a high normal resistance nano-bridge deposited across a slotline transmission line. We present preliminary experimental results measured at 220 GHz range, and we discuss in detail the various parameters that affect the performance of the planar on/off switch, including the optimum thickness required for the nano-bridge to achieve high dynamic range and low transmission loss. The analysis is done by combining the accurate superconducting surface impedance description with rigorous electromagnetic simulations, and comparing the simulated results with the measured performance of a previously fabricated on/off switch fed by a backto- back unilateral finline taper. Finally, we propose an improved method to further increase the dynamic range of the switch, by introducing a multi-bridge design to tune out the residual inductance of the nano-bridges.