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Christian D. Marciniak
Christian D. Marciniak
Postdoctial Research Associate, University of Innsbruck
Dirección de correo verificada de uibk.ac.at
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Año
Compact ion-trap quantum computing demonstrator
I Pogorelov, T Feldker, CD Marciniak, L Postler, G Jacob, O Krieglsteiner, ...
PRX Quantum 2 (2), 020343, 2021
2952021
Demonstration of fault-tolerant universal quantum gate operations
L Postler, S Heuβen, I Pogorelov, M Rispler, T Feldker, M Meth, ...
Nature 605 (7911), 675-680, 2022
1842022
Optimal metrology with programmable quantum sensors
CD Marciniak, T Feldker, I Pogorelov, R Kaubruegger, DV Vasilyev, ...
Nature 603 (7902), 604-609, 2022
1172022
Approaching optimal entangling collective measurements on quantum computing platforms
LO Conlon, T Vogl, CD Marciniak, I Pogorelov, SK Yung, F Eilenberger, ...
Nature Physics 19 (3), 351-357, 2023
312023
Towards fully commercial, UV-compatible fiber patch cords
CD Marciniak, HB Ball, ATH Hung, MJ Biercuk
Optics Express 25 (14), 15643-15661, 2017
282017
Frequency stabilization of a 369 nm diode laser by nonlinear spectroscopy of ytterbium ions in a discharge
MW Lee, MC Jarratt, C Marciniak, MJ Biercuk
Optics express 22 (6), 7210-7221, 2014
262014
Site-resolved imaging of beryllium ion crystals in a high-optical-access Penning trap with inbore optomechanics
H Ball, CD Marciniak, RN Wolf, ATH Hung, K Pyka, MJ Biercuk
Review of Scientific Instruments 90 (5), 2019
202019
2023 roadmap for materials for quantum technologies
C Becher, W Gao, S Kar, CD Marciniak, T Monz, JG Bartholomew, ...
Materials for Quantum Technology 3 (1), 012501, 2023
192023
Demonstration of fault-tolerant Steane quantum error correction
L Postler, F Butt, I Pogorelov, CD Marciniak, S Heußen, R Blatt, ...
arXiv preprint arXiv:2312.09745, 2023
92023
Strategies for a practical advantage of fault-tolerant circuit design in noisy trapped-ion quantum computers
S Heußen, L Postler, M Rispler, I Pogorelov, CD Marciniak, T Monz, ...
Physical Review A 107 (4), 042422, 2023
92023
roadmap for materials for quantum technologies. Mater
C Becher, W Gao, S Kar, CD Marciniak, T Monz, JG Bartholomew, ...
Quantum. Technol 3, 012501, 2023
72023
Verifiable measurement-based quantum random sampling with trapped ions
M Ringbauer, M Hinsche, T Feldker, PK Faehrmann, J Bermejo-Vega, ...
arXiv preprint arXiv:2307.14424, 2023
32023
High bandwidth frequency modulation of an external cavity diode laser using an intracavity lithium niobate electro-optic modulator as output coupler
S Palmer, A Boes, G Ren, TG Nguyen, SJ Tempone-Wiltshire, ...
APL Photonics 7 (8), 2022
32022
Design and operation of a Penning ion trap for quantum simulation
CD Marciniak
22019
A self-referenced optical phase noise analyzer for quantum technologies
R Freund, CD Marciniak, T Monz
arXiv preprint arXiv:2310.08258, 2023
12023
High-power spectral beamsplitter for closely spaced frequencies
CD Marciniak, A Rischka, RN Wolf, MJ Biercuk
Optics Express 28 (8), 11372-11379, 2020
12020
Building a quantum simulator using trapped ions
C Marciniak, H Ball, R Wolf, M Biercuk
APS March Meeting Abstracts 2018, F26. 001, 2018
12018
Experimental fault-tolerant code switching
I Pogorelov, F Butt, L Postler, CD Marciniak, P Schindler, M Müller, ...
arXiv preprint arXiv:2403.13732, 2024
2024
Dynamical quantum maps for single-qubit gates under non-Markovian phase noise
JM Sánchez Velázquez, A Steiner, R Freund, M Guevara-Bertsch, ...
arXiv e-prints, arXiv: 2402.14530, 2024
2024
Quantum Simulation and Quantum Computation with Strings of Trapped Ca+ Ions
C Marciniak
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts 2022 …, 2022
2022
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Artículos 1–20