Folgen
Leonardo Ranzani
Leonardo Ranzani
Experimental Physicist, BBN Technologies
Bestätigte E-Mail-Adresse bei bbn.com
Titel
Zitiert von
Zitiert von
Jahr
Nonreciprocal microwave signal processing with a field-programmable Josephson amplifier
F Lecocq, L Ranzani, GA Peterson, K Cicak, RW Simmonds, JD Teufel, ...
Physical Review Applied 7 (2), 024028, 2017
2092017
Graphene-based Josephson junction microwave bolometer
GH Lee, DK Efetov, W Jung, L Ranzani, ED Walsh, TA Ohki, T Taniguchi, ...
Nature 586 (7827), 42-46, 2020
1392020
Graph-based analysis of nonreciprocity in coupled-mode systems
L Ranzani, J Aumentado
New Journal of Physics 17, 023024, 2015
1222015
Micro-fabricated 130–180 GHz frequency scanning waveguide arrays
ED Cullens, L Ranzani, KJ Vanhille, EN Grossman, N Ehsan, Z Popovic
IEEE Transactions on Antennas and Propagation 60 (8), 3647-3653, 2012
1052012
Two-port microwave calibration at millikelvin temperatures
L Ranzani, L Spietz, Z Popovic, J Aumentado
Review of scientific instruments 84 (3), 2013
832013
G-Band Micro-Fabricated Frequency-Steered Arrays With 2/GHz Beam Steering
L Ranzani, D Kuester, KJ Vanhille, A Boryssenko, E Grossman, Z Popović
IEEE Transactions on Terahertz Science and Technology 3 (5), 566-573, 2013
642013
Kerr-microresonator soliton frequency combs at cryogenic temperatures
G Moille, X Lu, A Rao, Q Li, DA Westly, L Ranzani, SB Papp, M Soltani, ...
Physical review applied 12 (3), 034057, 2019
592019
Coherent-state storage and retrieval between superconducting cavities using parametric frequency conversion
AJ Sirois, MA Castellanos-Beltran, MP DeFeo, L Ranzani, F Lecocq, ...
Applied Physics Letters 106 (17), 2015
542015
A W-band micro coaxial passive monopulse comparator network with integrated cavity-backed patch antenna array
JM Oliver, P Ralston, E Cullens, L Ranzanic, K Vanhille, S Raman
2011 IEEE MTT-S International Microwave Symposium, 1-4, 2011
442011
G-band frequency-scanned antenna arrays
L Ranzani, N Ehsan, Z Popoviać
2010 IEEE Antennas and Propagation Society International Symposium, 1-4, 2010
442010
Cryogenic memory architecture integrating spin Hall effect based magnetic memory and superconductive cryotron devices
MH Nguyen, GJ Ribeill, MV Gustafsson, S Shi, SV Aradhya, AP Wagner, ...
Scientific reports 10 (1), 248, 2020
432020
Kinetic inductance traveling-wave amplifiers for multiplexed qubit readout
L Ranzani, M Bal, KC Fong, G Ribeill, X Wu, J Long, HS Ku, RP Erickson, ...
Applied Physics Letters 113 (24), 2018
432018
Circulators at the quantum limit: Recent realizations of quantum-limited superconducting circulators and related approaches
L Ranzani, J Aumentado
IEEE Microwave Magazine 20 (4), 112-122, 2019
352019
A geometric description of nonreciprocity in coupled two-mode systems
L Ranzani, J Aumentado
New Journal of Physics 16 (10), 103027, 2014
332014
G-band frequency-steering antenna array design and measurements
E Cullens, L Ranzani, E Grossman, Z Popovic
2011 XXXth URSI General Assembly and Scientific Symposium, 1-2, 2011
332011
W-band micro-fabricated coaxially-fed frequency scanned slot arrays
L Ranzani, ED Cullens, D Kuester, KJ Vanhille, E Grossman, Z Popović
IEEE transactions on antennas and propagation 61 (4), 2324-2328, 2012
312012
An integrated magneto-optic modulator for cryogenic applications
P Pintus, L Ranzani, S Pinna, D Huang, MV Gustafsson, F Karinou, ...
Nature Electronics 5 (9), 604-610, 2022
28*2022
Efficient qubit measurement with a nonreciprocal microwave amplifier
F Lecocq, L Ranzani, GA Peterson, K Cicak, XY Jin, RW Simmonds, ...
Physical Review Letters 126 (2), 020502, 2021
262021
Microfabricated transmission-line transformers with DC isolation
L Ranzani, I Ramos, Z Popovic, D Maksimovic
2014 United States National Committee of URSI National Radio Science Meeting …, 2014
252014
Microwave measurement beyond the quantum limit with a nonreciprocal amplifier
F Lecocq, L Ranzani, GA Peterson, K Cicak, A Metelmann, S Kotler, ...
Physical Review Applied 13 (4), 044005, 2020
242020
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20