Mark A. Eriksson
Mark A. Eriksson
John Bardeen Professor of Physics, Department of Physics, University of Wisconsin-Madison
E-mail confirmado em - Página inicial
Citado por
Citado por
Silicon quantum electronics
FA Zwanenburg, AS Dzurak, A Morello, MY Simmons, LCL Hollenberg, ...
Reviews of modern physics 85 (3), 961-1019, 2013
A programmable two-qubit quantum processor in silicon
TF Watson, SGJ Philips, E Kawakami, DR Ward, P Scarlino, M Veldhorst, ...
nature 555 (7698), 633-637, 2018
Electrical control of a long-lived spin qubit in a Si/SiGe quantum dot
E Kawakami, P Scarlino, DR Ward, FR Braakman, DE Savage, ...
Nature nanotechnology 9 (9), 666-670, 2014
Quantum simulators: Architectures and opportunities
E Altman, KR Brown, G Carleo, LD Carr, E Demler, C Chin, B DeMarco, ...
PRX quantum 2 (1), 017003, 2021
Polydiacetylene films: a review of recent investigations into chromogenic transitions and nanomechanical properties
RW Carpick, DY Sasaki, MS Marcus, MA Eriksson, AR Burns
Journal of Physics: condensed matter 16 (23), R679, 2004
Embracing the quantum limit in silicon computing
JJL Morton, DR McCamey, MA Eriksson, SA Lyon
Nature 479 (7373), 345-353, 2011
Controllable valley splitting in silicon quantum devices
S Goswami, KA Slinker, M Friesen, LM McGuire, JL Truitt, C Tahan, ...
Nature Physics 3 (1), 41-45, 2007
Quantum control and process tomography of a semiconductor quantum dot hybrid qubit
D Kim, Z Shi, CB Simmons, DR Ward, JR Prance, TS Koh, JK Gamble, ...
Nature 511 (7507), 70-74, 2014
Practical design and simulation of silicon-based quantum-dot qubits
M Friesen, P Rugheimer, DE Savage, MG Lagally, DW van der Weide, ...
Physical Review B 67 (12), 121301, 2003
Elastically relaxed free-standing strained-silicon nanomembranes
MM Roberts, LJ Klein, DE Savage, KA Slinker, M Friesen, G Celler, ...
Nature materials 5 (5), 388-393, 2006
Effect of ozone oxidation on single-walled carbon nanotubes
JM Simmons, BM Nichols, SE Baker, MS Marcus, OM Castellini, CS Lee, ...
The journal of physical chemistry B 110 (14), 7113-7118, 2006
Fast hybrid silicon double-quantum-dot qubit
Z Shi, CB Simmons, JR Prance, JK Gamble, TS Koh, YP Shim, X Hu, ...
Physical review letters 108 (14), 140503, 2012
Electronic transport in nanometre-scale silicon-on-insulator membranes
P Zhang, E Tevaarwerk, BN Park, DE Savage, GK Celler, I Knezevic, ...
Nature 439 (7077), 703-706, 2006
Spin blockade and lifetime-enhanced transport in a few-electron Si/SiGe double quantum dot
N Shaji, CB Simmons, M Thalakulam, LJ Klein, H Qin, H Luo, DE Savage, ...
Nature Physics 4 (7), 540-544, 2008
Spectroscopy of few-electron single-crystal silicon quantum dots
M Fuechsle, S Mahapatra, FA Zwanenburg, M Friesen, MA Eriksson, ...
Nature Nanotechnology 5 (7), 502-505, 2010
Electrically addressable biomolecular functionalization of carbon nanotube and carbon nanofiber electrodes
CS Lee, SE Baker, MS Marcus, W Yang, MA Eriksson, RJ Hamers
Nano letters 4 (9), 1713-1716, 2004
Valley splitting in strained silicon quantum wells
TB Boykin, G Klimeck, MA Eriksson, M Friesen, SN Coppersmith, ...
Applied Physics Letters 84 (1), 115-117, 2004
Electronically driven structure changes of Si captured by femtosecond electron diffraction
M Harb, R Ernstorfer, CT Hebeisen, G Sciaini, W Peng, T Dartigalongue, ...
Physical review letters 100 (15), 155504, 2008
Two-axis control of a singlet–triplet qubit with an integrated micromagnet
X Wu, DR Ward, JR Prance, D Kim, JK Gamble, RT Mohr, Z Shi, ...
Proceedings of the National Academy of Sciences 111 (33), 11938-11942, 2014
Cryogenic scanning probe characterization of semiconductor nanostructures
MA Eriksson, RG Beck, M Topinka, JA Katine, RM Westervelt, ...
Applied Physics Letters 69 (5), 671-673, 1996
O sistema não pode executar a operação agora. Tente novamente mais tarde.
Artigos 1–20