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Hannah Clevenson
Hannah Clevenson
Verified email at mit.edu
Title
Cited by
Cited by
Year
Broadband magnetometry and temperature sensing with a light trapping diamond waveguide
H Clevenson, ME Trusheim, T Schroder, C Teale, D Braje, D Englund
Nature Physics 11, 393-397, 2015
3092015
Methods and apparatus for optically detecting magnetic resonance
HA Clevenson, DR Englund
US Patent App. 10/197,515, 2019
104*2019
Methods and apparatus for optically detecting magnetic resonance
HA Clevenson, DR Englund
US Patent App. 14/325,937, 2019
1032019
Methods and apparatus for optically detecting magnetic resonance
HA Clevenson, DR Englund
US Patent App. 14/325,937, 2015
103*2015
Methods and apparatus for optically detecting magnetic resonance
HA Clevenson, DR Englund
US Patent 10,197,515, 2015
1032015
Robust high-dynamic-range vector magnetometry with nitrogen-vacancy centers in diamond
H Clevenson, LM Pham, C Teale, K Johnson, D Englund, D Braje
Applied Physics Letters 112 (25), 2018
932018
High-sensitivity spin-based electrometry with an ensemble of nitrogen-vacancy centers in diamond
EH Chen, HA Clevenson, KA Johnson, LM Pham, DR Englund, ...
Physical Review A 95 (5), 053417, 2017
912017
Generation of ensembles of individually resolvable nitrogen vacancies using nanometer-scale apertures in ultrahigh-aspect ratio planar implantation masks
I Bayn, EH Chen, ME Trusheim, L Li, T Schröder, O Gaathon, M Lu, ...
Nano letters 15 (3), 1751-1758, 2015
612015
High sensitivity gas sensor based on high-Q suspended polymer photonic crystal nanocavity
H Clevenson, P Desjardins, X Gan, D Englund
Applied Physics Letters 104 (24), 2014
522014
Methods and apparatus for optically detecting magnetic resonance
LM Pham, CA Teale, HA Clevenson, KA Johnson, CM McNally, JF Barry, ...
US Patent 10,712,408, 2020
512020
Diamond nitrogen vacancy electronic and nuclear spin-state anti-crossings under weak transverse magnetic fields
H Clevenson, E Chen, F Dolde, C Teale, D Englund, D Braje
Physical Review A 94, 021401(R), 2016
332016
Nanophotonic filters and integrated networks in flexible 2D polymer photonic crystals
X Gan, H Clevenson, CC Tsai, L Li, D Englund
Scientific reports 3 (1), 2145, 2013
312013
Incoherent light imaging using an optical phased array
HA Clevenson, SJ Spector, L Benney, MG Moebius, J Brown, A Hare, ...
Applied Physics Letters 116 (3), 2020
252020
Polymer photonic crystal nanocavity for precision strain sensing
X Gan, H Clevenson, D Englund
ACS Photonics 4 (7), 1591-1594, 2017
222017
On the possibility of miniature diamond-based magnetometers using waveguide geometries
L Bougas, A Wilzewski, Y Dumeige, D Antypas, T Wu, A Wickenbrock, ...
Micromachines 9 (6), 276, 2018
152018
Methods and apparatus for optically detecting magnetic resonance
HA Clevenson, DR Englund
US Patent 10,648,933, 2020
72020
Gas sensing using a resilient polymer photonic crystal nanocavity with ultra-high quality factor
H Clevenson, P Desjardins, X Gan, D Englund
CLEO: Applications and Technology, AF1J. 2, 2013
42013
Multi-mode interference coupler-based flat compressive and transform imager
M Moebius, J Brown, S Spector, B Lane, A Zhou, HA Clevenson, ...
US Patent 11,218,655, 2022
22022
Micro-column Scanning Electron Microscope and x-ray Spectrometer (MSEMS) for planetary exploration
B Ribaya, D Niemann, J Makarewicz, H Clevenson, C McKenzie, ...
AGU Fall Meeting Abstracts 2009, P43A-1421, 2009
22009
Methods and apparatus for optically detecting magnetic resonance
LM Pham, KA Johnson, CA Teale, HA Clevenson, DA Braje, CM McNally, ...
US Patent 11,346,904, 2022
12022
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