Design and Performance of Parallel-channel Nanocryotrons in Magnetic Fields

Bibliographic Details
Title:	Design and Performance of Parallel-channel Nanocryotrons in Magnetic Fields
Authors:	Draher, Timothy, Polakovic, Tomas, Li, Yi, Pearson, John, Dibos, Alan, Meziani, Zein-Eddine, Xiao, Zhili, Novosad, Valentine
Publication Year:	2023
Collection:	Condensed Matter Physics (Other)
Subject Terms:	Condensed Matter - Superconductivity, Physics - Applied Physics
More Details:	We introduce a design modification to conventional geometry of the cryogenic three-terminal switch, the nanocryotron (nTron). The conventional geometry of nTrons is modified by including parallel current-carrying channels, an approach aimed at enhancing the device's performance in magnetic field environments. The common challenge in nTron technology is to maintain efficient operation under varying magnetic field conditions. Here we show that the adaptation of parallel channel configurations leads to an enhanced gate signal sensitivity, an increase in operational gain, and a reduction in the impact of superconducting vortices on nTron operation within magnetic fields up to 1 Tesla. Contrary to traditional designs that are constrained by their effective channel width, the parallel nanowire channels permits larger nTron cross sections, further bolstering the device's magnetic field resilience while improving electro-thermal recovery times due to reduced local inductance. This advancement in nTron design not only augments its functionality in magnetic fields but also broadens its applicability in technological environments, offering a simple design alternative to existing nTron devices. Comment: 6 pages, 5 figures. Accepted by Applied Physics Letters. Supplemental information includes additional supporting figures and tables
Document Type:	Working Paper
DOI:	10.1063/5.0180709
Access URL:	http://arxiv.org/abs/2310.06108
Accession Number:	edsarx.2310.06108
Database:	arXiv

More Details
DOI:	10.1063/5.0180709