Showing 1–20 of 123 results
/ Date/ Name
Jun 5, 2019Carrier recombination mechanism at defects in wide band gap two-dimensional materials from first principlesOct 5, 2021$C_2C_N$ as a 2 eV Single-Photon Emitter Candidate in Hexagonal Boron NitrideJan 1, 2021Substrate Effect on Excitonic Shift and Radiative Lifetime of Two-Dimensional MaterialsOct 31, 2022How Spin Relaxes and Dephases in Bulk Halide PerovskitesApr 9, 2024Excited-State Dynamics and Optically Detected Magnetic Resonance of Solid-State Spin Defects from First PrinciplesDec 16, 2020Ab initio Ultrafast Spin Dynamics in SolidsApr 24, 2025First-principles open quantum dynamics for solids based on density-matrix formalismApr 15, 2025Relation of Continuous Chirality Measure to Spin and Orbital Polarization, and Chiroptical Properties in SolidsAug 5, 2025The role of orbital polarization and spin-dependent electron-phonon scatterings in chiral-induced spin selectivityJul 15, 2020Substrate screening approach for quasiparticle energies of two-dimensional interfaces with lattice mismatchJul 30, 2023Ab-initio predictions of spin relaxation, dephasing and diffusion in solidsOct 3, 2021Giant Spin Lifetime Anisotropy and Spin-Valley Locking in Silicene and Germanene from First-Principles Density-Matrix DynamicsSep 6, 2020Intersystem Crossing and Exciton-Defect Coupling of Spin Defects in Hexagonal Boron NitrideSep 30, 2017First-principles Engineering of Charged Defects for Two-dimensional Quantum TechnologiesFeb 1, 2025Deep Spin Defects in Zinc Oxide for High-Fidelity Single-Shot ReadoutJun 1, 2022Substrate Effects on Spin Relaxation in Two-Dimensional Dirac Materials with Strong Spin-Orbit CouplingAug 15, 2024Spin Relaxation and Diffusion in Monolayer 1T'-WTe$_2$ from First-PrinciplesApr 25, 2025Phonon-Assisted Radiative Lifetimes and Exciton Dynamics from First PrinciplesFeb 27, 2025Carrier Localization and Spontaneous Formation of Two-Dimensional Polarization Domain in Halide PerovskitesApr 12, 2023Effect of Environmental Screening and Strain on Optoelectronic Properties of Two-Dimensional Quantum Defects