Chloe Clear
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View article: Laser-Induced Spectral Diffusion and Excited-State Mixing of Silicon T Centers
Laser-Induced Spectral Diffusion and Excited-State Mixing of Silicon T Centers Open
To find practical application as photon sources for entangled optical-resource states or as spin-photon interfaces in entangled networks, semiconductor emitters must produce indistinguishable photons with high efficiency and spectral stabi…
View article: Laser-induced spectral diffusion and excited-state mixing of silicon T centres
Laser-induced spectral diffusion and excited-state mixing of silicon T centres Open
To find practical application as photon sources for entangled optical resource states or as spin-photon interfaces in entangled networks, semiconductor emitters must produce indistinguishable photons with high efficiency and spectral stabi…
View article: Distributed Quantum Computing in Silicon
Distributed Quantum Computing in Silicon Open
Commercially impactful quantum algorithms such as quantum chemistry and Shor's algorithm require a number of qubits and gates far beyond the capacity of any existing quantum processor. Distributed architectures, which scale horizontally by…
View article: Optical transition parameters of the silicon T centre
Optical transition parameters of the silicon T centre Open
The silicon T centre's narrow, telecommunications-band optical emission, long spin coherence, and direct photonic integration have spurred interest in this emitter as a spin-photon interface for distributed quantum computing and networking…
View article: Photon indistinguishability measurements under pulsed and continuous excitation
Photon indistinguishability measurements under pulsed and continuous excitation Open
The indistinguishability of successively generated photons from a single\nquantum emitter is most commonly measured using two-photon interference at a\nbeam splitter. Whilst for sources excited in the pulsed regime the measured\nbunching o…
View article: Nitrogen-Vacancy Center Coupled to an Ultrasmall-Mode-Volume Cavity: A High-Efficiency Source of Indistinguishable Photons at 200 K
Nitrogen-Vacancy Center Coupled to an Ultrasmall-Mode-Volume Cavity: A High-Efficiency Source of Indistinguishable Photons at 200 K Open
Solid state atom-like systems have great promise for linear optic quantum\ncomputing and quantum communication but are burdened by phonon sidebands and\nbroadening due to surface charges. Nevertheless, coupling to a small mode\nvolume cavi…
View article: Phonon-Induced Optical Dephasing in Single Organic Molecules
Phonon-Induced Optical Dephasing in Single Organic Molecules Open
We present a joint experiment-theory analysis of the temperature-dependent emission spectra, zero-phonon linewidth, and second-order correlation function of light emitted from a single organic molecule. We observe spectra with a zero-phono…
View article: Data to accompany C. Clear et al., "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. (2020)
Data to accompany C. Clear et al., "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. (2020) Open
Data to accompany C. Clear, R. C. Schofield, K. D. Major, J. Iles-Smith, A. S. Clark, and D. P. S. McCutcheon "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. 124, 153602 (2020). The raw data for single mole…
View article: Data to accompany C. Clear et al., "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. (2020)
Data to accompany C. Clear et al., "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. (2020) Open
Data to accompany C. Clear, R. C. Schofield, K. D. Major, J. Iles-Smith, A. S. Clark, and D. P. S. McCutcheon "Phonon-induced optical dephasing in single organic molecules," Phys. Rev. Lett. 124, 153602 (2020). The raw data for single mole…