|Quantum-dot spin–photon entanglement via frequency downconversion to telecom wavelength|
K De Greve, L Yu, PL McMahon, JS Pelc, CM Natarajan, NY Kim, E Abe, ...
Nature 491 (7424), 421-425, 2012
|All-silicon quantum computer|
TD Ladd, JR Goldman, F Yamaguchi, Y Yamamoto, E Abe, KM Itoh
Physical Review Letters 89 (1), 017901, 2002
|Coherence time of decoupled nuclear spins in silicon|
TD Ladd, D Maryenko, Y Yamamoto, E Abe, KM Itoh
Physical Review B 71 (1), 014401, 2005
|Broadband, large-area microwave antenna for optically detected magnetic resonance of nitrogen-vacancy centers in diamond|
K Sasaki, Y Monnai, S Saijo, R Fujita, H Watanabe, J Ishi-Hayase, KM Itoh, ...
Review of Scientific Instruments 87 (5), 2016
|Electron-spin phase relaxation of phosphorus donors in nuclear-spin-enriched silicon|
E Abe, KM Itoh, J Isoya, S Yamasaki
Physical Review B 70 (3), 033204, 2004
|Electron spin coherence of phosphorus donors in silicon: Effect of environmental nuclei|
E Abe, AM Tyryshkin, S Tojo, JJL Morton, WM Witzel, A Fujimoto, JW Ager, ...
Physical Review B 82 (12), 121201, 2010
|Electron spin ensemble strongly coupled to a three-dimensional microwave cavity|
E Abe, H Wu, A Ardavan, JJL Morton
Applied Physics Letters 98 (25), 2011
|Tutorial: Magnetic resonance with nitrogen-vacancy centers in diamond—microwave engineering, materials science, and magnetometry|
E Abe, K Sasaki
Journal of Applied Physics 123 (16), 2018
|Complete tomography of a high-fidelity solid-state entangled spin–photon qubit pair|
K De Greve, PL McMahon, L Yu, JS Pelc, C Jones, CM Natarajan, NY Kim, ...
Nature communications 4 (1), 2228, 2013
|Two-photon interference at telecom wavelengths for time-bin-encoded single photons from quantum-dot spin qubits|
L Yu, CM Natarajan, T Horikiri, C Langrock, JS Pelc, MG Tanner, E Abe, ...
Nature Communications 6 (1), 8955, 2015
|Polarization-and frequency-tunable microwave circuit for selective excitation of nitrogen-vacancy spins in diamond|
J Herrmann, MA Appleton, K Sasaki, Y Monnai, T Teraji, KM Itoh, E Abe
Applied Physics Letters 109 (18), 2016
|Determination of the position of a single nuclear spin from free nuclear precessions detected by a solid-state quantum sensor|
K Sasaki, KM Itoh, E Abe
Physical Review B 98 (12), 121405, 2018
|Construction and operation of a tabletop system for nanoscale magnetometry with single nitrogen-vacancy centers in diamond|
D Misonou, K Sasaki, S Ishizu, Y Monnai, KM Itoh, E Abe
AIP Advances 10 (2), 2020
|Solid-state silicon NMR quantum computer|
E Abe, KM Itoh, TD Ladd, JR Goldman, F Yamaguchi, Y Yamamoto
Journal of superconductivity 16, 175-178, 2003
|Fano effect in a few-electron quantum dot|
T Otsuka, E Abe, S Katsumoto, Y Iye, G L. Khym, K Kang
journal of the physical society of japan 76 (8), 084706, 2007
|Dynamic nuclear polarization enhanced magnetic field sensitivity and decoherence spectroscopy of an ensemble of near-surface nitrogen-vacancy centers in diamond|
K Sasaki, EE Kleinsasser, Z Zhu, WD Li, H Watanabe, KMC Fu, KM Itoh, ...
Applied Physics Letters 110 (19), 2017
|Linewidth of low-field electrically detected magnetic resonance of phosphorus in isotopically controlled silicon|
H Morishita, E Abe, W Akhtar, LS Vlasenko, A Fujimoto, K Sawano, ...
Applied physics express 4 (2), 021302, 2011
|Nitrogen-vacancy centers created by N+ ion implantation through screening SiO2 layers on diamond|
K Ito, H Saito, K Sasaki, H Watanabe, T Teraji, KM Itoh, E Abe
Applied Physics Letters 110 (21), 2017
|Detection of spin polarization with a side-coupled quantum dot|
T Otsuka, E Abe, Y Iye, S Katsumoto
Physical Review B 79 (19), 195313, 2009
|Nuclear spin decoherence of neutral P 31 donors in silicon: Effect of environmental Si 29 nuclei|
ES Petersen, AM Tyryshkin, JJL Morton, E Abe, S Tojo, KM Itoh, ...
Physical Review B 93 (16), 161202, 2016