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Nikodem Grzesiak
Nikodem Grzesiak
Formerly IonQ, University of Pensylvania
Dirección de correo verificada de sas.upenn.edu
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Benchmarking an 11-qubit quantum computer
K Wright, KM Beck, S Debnath, JM Amini, Y Nam, N Grzesiak, JS Chen, ...
Nature communications 10 (1), 5464, 2019
5892019
Efficient arbitrary simultaneously entangling gates on a trapped-ion quantum computer
N Grzesiak, R Blümel, K Wright, KM Beck, NC Pisenti, M Li, V Chaplin, ...
Nature communications 11 (1), 2963, 2020
1032020
Power-optimal, stabilized entangling gate between trapped-ion qubits
R Blümel, N Grzesiak, N Pisenti, K Wright, Y Nam
npj Quantum Information 7 (1), 147, 2021
482021
Efficient stabilized two-qubit gates on a trapped-ion quantum computer
R Blümel, N Grzesiak, NH Nguyen, AM Green, M Li, A Maksymov, ...
Physical Review Letters 126 (22), 220503, 2021
342021
Efficient quantum programming using EASE gates on a trapped-ion quantum computer
N Grzesiak, A Maksymov, P Niroula, Y Nam
Quantum 6, 634, 2022
92022
Stabilization of entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,481,660, 2022
12022
Amplitude, frequency, and phase modulated entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,436,518, 2022
12022
Demodulation and smoothing of amplitude, frequency, and phase modulated pulses for optimal implementation of entangling gates in ion trap quantum computers
R Blumel, N Grzesiak, NAM Yunseong
US Patent App. 17/477,107, 2022
12022
Amplitude, frequency, and phase modulated entangling gates for ion trap quantum computers
R Blumel, N Grzesiak, NAM Yunseong
US Patent App. 17/458,109, 2022
12022
Universal gate pulse for two-qubit gates on a trapped-ion quantum computer
R Blümel, N Grzesiak, M Li, A Maksymov, NAM Yunseong
US Patent App. 17/971,458, 2023
2023
Quantum circuit construction with simultaneously entangling gates in trapped-ion quantum computers
N Grzesiak, A Maksymov, P Niroula, NAM Yunseong
US Patent App. 17/862,039, 2023
2023
Amplitude, frequency, and phase modulated simultaneous entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,715,028, 2023
2023
Simultaneously entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,715,027, 2023
2023
Stabilization of entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,645,569, 2023
2023
Quantum computer based on manipulation of ion chains
J Kim, JA Mizrahi, JM Amini, K Wright, N Pisenti, UYS Hermann, M Li, ...
US Patent App. 17/890,864, 2023
2023
Amplitude modulated pulses for implementation of entangling gates in ion trap quantum computers
R Blumel, N Grzesiak
US Patent App. 17/681,504, 2022
2022
Simultaneously entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,461,688, 2022
2022
Amplitude, frequency, and phase modulated simultaneous entangling gates for trapped-ion quantum computers
NAM Yunseong, R Blumel, N Grzesiak
US Patent 11,379,750, 2022
2022
Efficient, stabilized entangling gates on a trapped-ion chain
N Nguyen, R Blumel, N Grzesiak, A Green, M Li, A Maksymov, N Linke, ...
Bulletin of the American Physical Society 66, 2021
2021
Towards robust two-qubit gates on a trapped-ion quantum computer
Y Nam, R Blümel, N Grzesiak
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2020 …, 2020
2020
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