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RSPE databaseMr John Bartholomew is a past member of RSPE. Contact details and information may no longer be correct.
Mr John Bartholomew
| Position | PhD Student |
|---|---|
| Department | Laser Physics Centre |
| Office phone | (02) 612 59274 |
| Office | Oliphant 3 04 |
Publications
Journal article
Bartholomew J, Sellars M
Technique for frequency selective, sub-diffraction limited imaging of rare-earth ions in bulk crystals
Journal of Luminescence 194(2018) 284-291
Technique for frequency selective, sub-diffraction limited imaging of rare-earth ions in bulk crystals
Journal of Luminescence 194(2018) 284-291
Bartholomew J, Ahlefeldt R, Sellars M
Engineering closed optical transitions in rare-earth ion crystals
Physical Review B: Condensed Matter and Materials 93, 1(2016)
Engineering closed optical transitions in rare-earth ion crystals
Physical Review B: Condensed Matter and Materials 93, 1(2016)
Zhong M, Hedges M, Ahlefeldt R, Bartholomew J, Beavan S, Wittig S, Longdell J, Sellars M
Optically addressable nuclear spins in a solid with a six-hour coherence time
Nature 517, 7533(2015) 177-U121
Optically addressable nuclear spins in a solid with a six-hour coherence time
Nature 517, 7533(2015) 177-U121
Marzban S, Bartholomew J, Madden S, Vu K, Sellars M
Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide
Physical Review Letters 115, 1(2015) 013601-1 to 013601-5
Observation of Photon Echoes from Evanescently Coupled Rare-Earth Ions in a Planar Waveguide
Physical Review Letters 115, 1(2015) 013601-1 to 013601-5
Ahlefeldt R, Zhong M, Bartholomew J, Sellars M
Minimizing Zeeman sensitivity on optical and hyperfine transitions in EuCl3 . 6H2O to extend coherence times
Journal of Luminescence 143(2013) 193-200
Minimizing Zeeman sensitivity on optical and hyperfine transitions in EuCl3 . 6H2O to extend coherence times
Journal of Luminescence 143(2013) 193-200
McAuslan D, Bartholomew J, Sellars M, Longdell J
Reducing decoherence in optical and spin transitions in rare-earth-metal-ion-doped materials
Physical Review A: Atomic, Molecular and Optical Physics 85, 3(2012) 032339 1-9
Reducing decoherence in optical and spin transitions in rare-earth-metal-ion-doped materials
Physical Review A: Atomic, Molecular and Optical Physics 85, 3(2012) 032339 1-9
(6 publications)
Conference paper
Marzban S, Bartholomew J, Sellars M, Vu K
Progress towards the development of rare-earth doped waveguides for quantum communications applications
OSA CLEO: QELS_Fundamental Science, CLEO_QELS 2014 ?, ?(2014)
Progress towards the development of rare-earth doped waveguides for quantum communications applications
OSA CLEO: QELS_Fundamental Science, CLEO_QELS 2014 ?, ?(2014)
(1 publications)
Updated: 15 January 2019/ Responsible Officer: Director, RSPE/ Page Contact: Physics Webmaster
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