Compact ion-trap quantum computing demonstrator I Pogorelov, T Feldker, CD Marciniak, L Postler, G Jacob, O Krieglsteiner, ...
PRX Quantum 2 (2), 020343, 2021
294 2021 Cryogenic setup for trapped ion quantum computing MF Brandl, MW Van Mourik, L Postler, A Nolf, K Lakhmanskiy, RR Paiva, ...
Review of Scientific Instruments 87 (11), 2016
78 2016 Cryogenic surface ion trap based on intrinsic silicon M Niedermayr, K Lakhmanskiy, M Kumph, S Partel, J Edlinger, ...
New Journal of Physics 16 (11), 113068, 2014
65 2014 2D linear trap array for quantum information processing PC Holz, S Auchter, G Stocker, M Valentini, K Lakhmanskiy, C Rössler, ...
Advanced Quantum Technologies 3 (11), 2000031, 2020
34 2020 Observation of superconductivity and surface noise using a single trapped ion as a field probe K Lakhmanskiy, PC Holz, D Schärtl, B Ames, R Assouly, T Monz, ...
Physical Review A 99 (2), 023405, 2019
21 2019 The Panopticon device: An integrated Paul-trap–hemispherical mirror system for quantum optics G Araneda, G Cerchiari, DB Higginbottom, PC Holz, K Lakhmanskiy, ...
Review of Scientific Instruments 91 (11), 2020
18 2020 Optimization of the normal mode spectrum of linear ion crystals in Paul traps for EIT Cooling using an optical lattice LA Akopyan, IV Zalivako, KE Lakhmanskiy, KY Khabarova, ...
JETP Letters 112 (9), 585-590, 2020
12 2020 A room-temperature ion trapping apparatus with hydrogen partial pressure below 10− 11 mbar P Obšil, A Lešundák, T Pham, K Lakhmanskiy, L Podhora, M Oral, O Číp, ...
Review of Scientific Instruments 90 (8), 2019
11 2019 Electric-field noise in a high-temperature superconducting surface ion trap PC Holz, K Lakhmanskiy, D Rathje, P Schindler, Y Colombe, R Blatt
Physical Review B 104 (6), 064513, 2021
7 2021 Ion-native variational ansatz for quantum approximate optimization D Rabinovich, S Adhikary, E Campos, V Akshay, E Anikin, R Sengupta, ...
Physical Review A 106 (3), 032418, 2022
6 2022 Line-shape modeling in microwave spectroscopy of the positronium fine-structure intervals LA Akopyan, TJ Babij, K Lakhmanskiy, DB Cassidy, A Matveev
Physical Review A 104 (6), 062810, 2021
6 2021 On heating rates in cryogenic surface ion traps K Lakhmanskiy
2 2019 Mitigating Quantum Gate Errors for Variational Eigensolvers Using Hardware-Inspired Zero-Noise Extrapolation A Uvarov, D Rabinovich, O Lakhmanskaya, K Lakhmanskiy, J Biamonte, ...
arXiv preprint arXiv:2307.11156, 2023
1 2023 Numerical simulation of the performance of single qubit gates for trapped ions LA Akopyan, O Lakhmanskaya, SY Zarutskiy, ND Korolev, O Guseva, ...
JETP Letters 116 (8), 580-585, 2022
1 2022 Focusing grating couplers for radio-frequency surface ion traps T Abbasov, I Kazakov, I Sherstov, S Kontorov, A Shipulin, F Kueppers, ...
Journal of Physics: Conference Series 2015 (1), 012001, 2021
1 2021 Hydrogen pressure at 1012 mBar level in a room temperature ion trapping apparatus. doi P Obšil, A Lešundák, T Pham, K Lakhmanskiy, L Podhora, M Oral, O Cıp, ...
arXiv preprint arXiv:1904.13242, 2019
1 2019 Individual addressing of ion qubits with counter-propagating optical frequency combs E Anikin, LA Akopyan, M Popov, Y Suleimen, O Lakhmanskaya, ...
arXiv preprint arXiv:2301.06356, 2023
2023 Effect of an External Alternating Electric Field on the Efficiency of a Superconducting Single-Photon Detector KO Sedykh, E Suleimen, MI Svyatodukh, A Podlesnyy, VV Kovalyuk, ...
Technical Physics 68 (7), 2023
2023 Parallel coupling of trapped ions in multiple individual wells A Podlesnyy, Y Suleimen, LA Akopyan, K Lakhmanskiy
arXiv preprint arXiv:2211.07121, 2022
2022 Multispecies Segmented Trapped Ion Architecture for Scalable Quantum Computing M Popov, N Sterligov, O Lakhmanskaya, K Lakhmanskiy
Quantum 2.0, QW3A. 7, 2022
2022