Semiconductor Nanostructures Research Group

HUN-REN Wigner Research Centre for Physics, Institute for Solid State Physics and Optics, Department of Theoretical Solid State Physics, Semiconductor Nanostructures Research Group

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11 to 20 of 23 Results

raw_parameters.csv Jan 10, 2026 - Exe.py: Ab initio fine structure parameters for trigonal defect qubits within the E⊗e Jahn-Teller case Comma Separated Values - 615 B - MD5: ab15545d34e0c3d19ce6973c3597e3b9
research_data.md Jan 10, 2026 - Exe.py: Ab initio fine structure parameters for trigonal defect qubits within the E⊗e Jahn-Teller case Markdown Text - 13.0 KB - MD5: 0d312912f796cc534f7a5dda98368a61
Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Aug 7, 2025 Thiering, Gergő; Gali, Ádám, 2025, "Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state", https://hdl.handle.net/21.15109/ARP/O4CEI6, ARP, V1 Optically accessible solid state defect spins serve as a primary platform for quantum information processing, where precise control of the electron spin and ancillary nuclear spins is essential for operation. Using the nitrogen-vacancy (NV) color center in diamond as an example,...
1_PBE_C3v.tar.gz Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Gzip Archive - 437.3 MB - MD5: 537115f0c323fe27354972e0e49a057f 1st row of VASP ab-initio data
2_HSE06_C3v.tar.gz Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Gzip Archive - 435.3 MB - MD5: 8449b1674972b047ecfb976fa9fb9a63 2nd row of VASP ab-initio data
3_PBE_C1h.tar.gz Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Gzip Archive - 422.9 MB - MD5: 5064eea78de53a6db48ac8f1fa06b1a6
4_HSE06_C1h.tar.gz Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Gzip Archive - 419.4 MB - MD5: 069cff365a721cbda3968e0cf57e6ea9
5_PBE_C1h.tar.gz Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Gzip Archive - 442.8 MB - MD5: 075b4ba5df1488afdfa8a6b1cc3a50ca
Readme.md Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Markdown Text - 5.9 KB - MD5: 64bc3b277a71cfb709eb43a331cdccf0 Readme file
data.csv Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state Comma Separated Values - 6.6 KB - MD5: 17538b33b667b5d7fe8f1f022b41dfe1 Libreoffice (Excel) of supporting data, .csv export

raw_parameters.csv

Jan 10, 2026 - Exe.py: Ab initio fine structure parameters for trigonal defect qubits within the E⊗e Jahn-Teller case

Comma Separated Values - 615 B -

research_data.md

Jan 10, 2026 - Exe.py: Ab initio fine structure parameters for trigonal defect qubits within the E⊗e Jahn-Teller case

Markdown Text - 13.0 KB -

Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state

Aug 7, 2025

Thiering, Gergő; Gali, Ádám, 2025, "Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state", https://hdl.handle.net/21.15109/ARP/O4CEI6, ARP, V1

Optically accessible solid state defect spins serve as a primary platform for quantum information processing, where precise control of the electron spin and ancillary nuclear spins is essential for operation. Using the nitrogen-vacancy (NV) color center in diamond as an example,...

1_PBE_C3v.tar.gz

Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state

Gzip Archive - 437.3 MB -

1st row of VASP ab-initio data

2_HSE06_C3v.tar.gz

Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state

Gzip Archive - 435.3 MB -

2nd row of VASP ab-initio data

3_PBE_C1h.tar.gz

Aug 7, 2025 - Nuclear spin relaxation in solid state defect quantum bits via electron-phonon coupling in their optical excited state

Gzip Archive - 422.9 MB -

4_HSE06_C1h.tar.gz