Caldwell, J. D. et al. Photonics of hexagonal boron nitride. Nat. Pastor Matt. 4552567 (2019).
Tran, TT, Bray, K., Ford, MJ, Toth, M. and Aharonovich, I. Nat. nano technology. 113741 (2016).
Bourrlier, R. et al. Bright UV single-photon emission from h-BN point defects. Nano Express. 1643174321 (2016).
Grosso, G. et al. Tunable high-purity room temperature single-photon emission from hexagonal boron nitride atomic defects. Nat. comminicate. 8705 (2017).
Fournier, C. et al. Position-controlled quantum emitters with reproducible emission wavelengths in hexagonal boron nitride. Nat. comminicate. 123779 (2021).
Dietrich, A. et al. Observation of Fourier transform limit lines in hexagonal boron nitride. physics. Revision B 98081414 (2018).
Chejanovsky, N. et al. Van der Waals single spin resonances embedded in paramagnetic defects. Nat. Matt. 2010791084 (2021).
Jungwirth, NR & Fuchs, GD Light absorption and emission mechanisms of single defects in hexagonal boron nitride. physics. Pastor Wright. 119057401 (2017).
Abdi, M., Chou, J.-P., Gali, A. and Plenio, MB Color centers in hexagonal boron nitride monolayers: group theory and ab initio analysis. ACS Photonics 519671976 (2018).
Tawfik, S. A. et al. First-principles study of quantum emission from hBN defects. Nanoscale 91357513582 (2017).
Mendelsohn, N. et al. Carbon was identified as the source of visible single-photon emission from hexagonal boron nitride. Nat. Matt. 20321328 (2021).
Gottsauer, A. et al. Room-temperature coherent control of spin defects in hexagonal boron nitride. science. adverb. 7eabf3630 (2021).
Gottsauer, A. et al. Initialization and readout of intrinsic spin defects in van der Waals crystals at room temperature. Nat. Matt. 19540545 (2020).
Tran, TT et al. Robust multicolor single-photon emission from point defects in hexagonal boron nitride. ACS Nano 1073317338 (2016).
Ament, LJP, van Veenendaal, M., Devereaux, TP, Hill, JP, and van den Brink, J. Resonant inelastic X-ray scattering studies of elementary excitations. Revised Mod. physics. 83705767 (2011).
Ament, LJP, van Veenendaal, M. and van den Brink, J. European Physical Society. Wright. 9527008 (2011).
Gelmukhanov, F., Odelius, M., Polyutov, SP, Fhlisch, A., and Kimberg, V. Resonant X-ray and Auger scattering dynamics. Revised Mod. physics. 93035001 (2021).
Dvorak, J., Jarrige, I., Bisogni, V., Coburn, S., and Leonhardt, W. Towards 10 meV resolution: design of an ultra-high-resolution soft X-ray RIXS spectrometer. Scientific Review. instrument. 87115109 (2016).
Pelicciari, J. et al. Tuning spin excitation in magnetic thin films through confinement. Nat. Matt. 20188193 (2021).
Pelicciari, J. et al. Evolution of spin excitations from bulk to monolayer FeSe. Nat. comminicate. 123122 (2021).
Dean, MPM et al.Spin excitation in single La2Copper oxide4 layer. Nat. Matt. 11850854 (2012).
McDougall, NL, Partridge, JG, Nicholls, RJ, Russo, SP & McCulloch, DG Effect of point defects on near-edge structure of hexagonal boron nitride. physics. Revision B 96144106 (2017).
Vinson, J., Jach, T., Mller, M., Unterumsberger, R., and Beckhoff, B. Resonant X-ray emission from hexagonal boron nitride. physics. Revision B 96205116 (2017).
McDougall, NL, Nicholls, RJ, Partridge, JG and McCulloch, DG Near-edge structure of hexagonal boron nitride. microscope. Microanus. 2010531059 (2014).
Watanabe, K., Taniguchi, T. and Kanda, H. Nat. Matt. 3404409 (2004).
Xu, Z.-Q. et al. Single-photon emission from plasma-treated two-dimensional hexagonal boron nitride. Nanoscale 1079577965 (2018).
Serrano, J. et al. Vibrational properties of hexagonal boron nitride: inelastic X-ray scattering and ab initio calculations. physics. Pastor Wright. 98095503 (2007).
Geondzhian, A. & Gilmore, K. Demonstration of resonant inelastic X-ray scattering as a probe for exciton-phonon coupling. physics. Revision B 98214305 (2018).
Geondzhian, A. & Gilmore, K. Generalization of the Franck-Condon model for resonant inelastic X-ray scattering phonon excitations. physics. Revision B 101214307 (2020).
Feng, X. et al. Differential exciton-phonon coupling of domain center and boundary phonons in solid graphite. physics. Pastor Wright. 125116401 (2020).
Dashwood, C. et al. Resonant inelastic X-ray scattering is used to detect electron-phonon interactions far from the Fermi level. physics. Revision X 11041052 (2021).
Kjellsson, L. et al. Resonant inelastic X-ray scattering at N2 Resonance: Lifetime vibrational interference, radiating electron rearrangements, and wave function imaging. physics. Revision A 103022812 (2021).
Lindblad, R. et al. X-ray absorption spectrum of N2+ Molecular ions. physics. Pastor Wright. 124203001 (2020).
Ament, LJ, Van Veenendaal, M., Devereaux, TP, Hill, JP, and Van Den Brink, J. Resonant inelastic X-ray scattering studies of elementary excitations. Revised Mod. physics. 83705 (2011).
Li, J. et al.Charge-orbital-lattice coupling effect DD Excitation profiles of one-dimensional cuprates. physics. Revision B 89041104 (2014).
Martinelli, L. et al. Collective properties of orbital excitations in layered cuprates in the absence of apical oxygen. physics. Pastor Wright. 132066004 (2024).
Comtet, J. et al. Widefield spectroscopic super-resolution mapping of optically active defects in hexagonal boron nitride. Nano Express. 1925162523 (2019).
Hayee, F. et al. Correlated optical and electron microscopy revealed multiple types of stable quantum emitters in hexagonal boron nitride. Nat. Matt. 19534539 (2020).
Mendelsohn, N. et al. Engineering and tuning of few-layer hexagonal boron nitride quantum emitters. ACS Nano 1331323140 (2019).
Kamphausen, R. et al. Observation of near-infrared sub-Poissonian photon emission from hexagonal boron nitride at room temperature. APL Photonics 5076103 (2020).
Schell, AW, Svedendahl, M. and Quidant, R. Quantum emitters in hexagonal boron nitride with spectrally tunable quantum efficiency. adverb. Matt. 301704237 (2018).
Grosso, G. et al. Low-temperature electron-phonon interactions for quantum emitters in hexagonal boron nitride. ACS Photonics 714101417 (2020).
Mendelson, N., Doherty, M., Toth, M., Aharonovich, I., and Tran, TT Strain-induced modification of the optical properties of quantum emitters in hexagonal boron nitride. adverb. Matt. 321908316 (2020).
Nikolai, N. et al. Very large and reversible Stark shift tuning of a single emitter in layered hexagonal boron nitride. physics. Revised app. 11041001 (2019).
Williams, F. Donor-acceptor pairs in semiconductors. physics. Status Solidi B 25493512 (1968).
Tan, Q. et al. Donor-acceptor pair quantum emitters in hexagonal boron nitride. Nano Express. twenty two13311337 (2022).
Laturia, A., Van de Put, ML and Vandenberghe, WG Dielectric properties of hexagonal boron nitride and transition metal dichalcogenides: from monolayers to bulk. npj 2D material. application. 26 (2018).
Weston, L., Wickramaratne, D., Mackoit, M., Alkauskas, A., and Van de Walle, C. Primary point defects and impurities in hexagonal boron nitride. physics. Revision B 97214104 (2018).
#Fundamental #excitation #singlephoton #emitters #hexagonal #boron #nitride #Nature #Materials
Image Source : www.nature.com