Please use this identifier to cite or link to this item: http://hdl.handle.net/1942/28350
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dc.contributor.authorHRUBY, Jaroslav-
dc.contributor.authorMAGCHIELS, Goele-
dc.contributor.authorGYBELS, Dylan-
dc.contributor.authorMLADENOV, Tom-
dc.contributor.authorWINTER, Kirian-
dc.contributor.authorVODNIK, Jelle-
dc.contributor.authorPROOTH, Jeroen-
dc.contributor.authorGULKA, Michal-
dc.contributor.authorBOURGEOIS, Emilie-
dc.contributor.authorNESLADEK, Milos-
dc.date.accessioned2019-06-04T07:30:44Z-
dc.date.available2019-06-04T07:30:44Z-
dc.date.issued2018-
dc.identifier.citationProceedings of a meeting held 1-5 October 2018, Bremen, Germany.,p. 9401-9405-
dc.identifier.isbn9781510881655-
dc.identifier.urihttp://hdl.handle.net/1942/28350-
dc.description.abstractSensing devices used in (aero)space are constrained by energy consumption, mass, volume and environmental compatibility. Although quantum sensors offer potentially better sensitivity than classical sensors, they are bulky and often require cooling to cryogenic temperatures or operation in vacuum. Here we propose a technical realization of a quantum sensor for magnetic field detection based on nitrogen-vacancy (NV) centers in diamond, which is compatible with miniaturization and offers potential sub-picotesla sensitivity. The miniaturization is based on recently developed electric readout of the NV center electron spin resonance. Our engineering platform allows to use diamond chip as a portable magnetic field sensor. We have designed and tested a miniaturized prototype and describe all key components for technical miniaturization. We achieved a power consumption down to 3.5 W, a weight of the fully integrated sensor of only 27g and small dimensions of 45 x 25 x 25 mm including all driving and readout components. We have proved the chip functionality in vacuum and explored its thermal behavior. The system will be further used for on-board stratospheric balloon experiment. The miniaturized sensor we developed has potential applications in a wide range of fields including navigation, bio-signal measurement, material analysis or space weather monitoring and planetary observation.-
dc.description.sponsorshipFWO; FWO-SBO - DIAQUANT;-
dc.language.isoen-
dc.rights2018 by the International Astronautical Federation (IAF). All rights reserved.-
dc.subject.otherDiamond; NV centers; magnetometry; quantum sensing; Photocurrent Detection of Magnetic Resonance; miniaturization-
dc.titleDiamond as a quantum sensor for space exploration-
dc.typeProceedings Paper-
local.bibliographicCitation.conferencedate1st - 5th October 2018-
local.bibliographicCitation.conferencename69th International Astronautical Congress-
local.bibliographicCitation.conferenceplaceBremen, Germany-
dc.identifier.epage9405-
dc.identifier.spage9401-
local.bibliographicCitation.jcatC1-
dc.relation.references[1] Drung, D., Abmann, C., Beyer, J., Kirste, A., Peters, M., Ruede, F., & Schurig, T. Highly sensitive and easyto-use SQUID sensors. IEEE Transactions on Applied Superconductivity, 17(2) (2007) 699-704. [2] Ripka, P., & Janosek, M. Advances in magnetic field sensors. IEEE Sensors Journal, 10(6) (2010) 1108- 1116. [3] Maze, J. R., Gali, A., Togan, E., Chu, Y., Trifonov, A., Kaxiras, E., & Lukin, M. D. Properties of nitrogenvacancy centers in diamond: the group theoretic approach. New Journal of Physics, 13(2) (2011) 025025. [4] Wolf, T., Neumann, P., Nakamura, K., Sumiya, H., Ohshima, T., Isoya, J., & Wrachtrup, J. Subpicotesla diamond magnetometry. Physical Review X, 5(4) (2015) 041001. [5] Rondin, L., Tetienne, J. P., Hingant, T., Roch, J. F., Maletinsky, P., & Jacques, V. Magnetometry with nitrogen-vacancy defects in diamond. Reports on progress in physics, 77(5) (2014) 056503. [6] Acosta, Victor Marcel. Optical magnetometry with nitrogen-vacancy centers in diamond. Diss. UC Berkeley, 2011. [7] Bourgeois, E., Jarmola, A., Siyushev, P., Gulka, M., Hruby, J., Jelezko, F., ... & Nesladek, M. Photoelectric detection of electron spin resonance of nitrogen-vacancy centres in diamond. Nature communications, 6 (2015) 8577. [8] REXUS/BEXUS. Balloon EXperiments for University Students. [ONLINE] Available at: http://rexusbexus.net/. 2018. [9] Schirhagl, R., Chang, K., Loretz, M., & Degen, C. L. Nitrogen-vacancy centers in diamond: nanoscale sensors for physics and biology. Annual review of physical chemistry, 65 (2014) 83-105. [10] Hruby, J., Bourgeois, E., Nesladek, M., De Ceuninck, W. U.S. Patent Application No. 15/588 (2017) 214. [11] Gulka, M., Bourgeois, E., Hruby, J., Siyushev, P., Wachter, G., Aumayr, F., ... & Nesladek, M. Pulsed Photoelectric Coherent Manipulation and Detection of N− V Center Spins in Diamond. Physical Review Applied, 7(4) (2017) 044032.-
local.type.refereedNon-Refereed-
local.type.specifiedProceedings Paper-
dc.identifier.urlhttps://iafastro.directory/iac/paper/id/47157/summary/-
local.bibliographicCitation.btitleProceedings of a meeting held 1-5 October 2018, Bremen, Germany.-
item.fulltextWith Fulltext-
item.accessRightsRestricted Access-
item.fullcitationHRUBY, Jaroslav; MAGCHIELS, Goele; GYBELS, Dylan; MLADENOV, Tom; WINTER, Kirian; VODNIK, Jelle; PROOTH, Jeroen; GULKA, Michal; BOURGEOIS, Emilie & NESLADEK, Milos (2018) Diamond as a quantum sensor for space exploration. In: Proceedings of a meeting held 1-5 October 2018, Bremen, Germany.,p. 9401-9405.-
item.contributorHRUBY, Jaroslav-
item.contributorMAGCHIELS, Goele-
item.contributorGYBELS, Dylan-
item.contributorMLADENOV, Tom-
item.contributorWINTER, Kirian-
item.contributorVODNIK, Jelle-
item.contributorPROOTH, Jeroen-
item.contributorGULKA, Michal-
item.contributorBOURGEOIS, Emilie-
item.contributorNESLADEK, Milos-
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