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Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond

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Zeitschriftentitel: AIP Advances
Personen und Körperschaften: Yang, Xiaoying, Zhang, Ning, Yuan, Heng, Bian, Guodong, Fan, Pengcheng, Li, Mingxin
In: AIP Advances, 9, 2019, 7
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
General Physics and Astronomy
author_facet Yang, Xiaoying
Zhang, Ning
Yuan, Heng
Bian, Guodong
Fan, Pengcheng
Li, Mingxin
Yang, Xiaoying
Zhang, Ning
Yuan, Heng
Bian, Guodong
Fan, Pengcheng
Li, Mingxin
author Yang, Xiaoying
Zhang, Ning
Yuan, Heng
Bian, Guodong
Fan, Pengcheng
Li, Mingxin
spellingShingle Yang, Xiaoying
Zhang, Ning
Yuan, Heng
Bian, Guodong
Fan, Pengcheng
Li, Mingxin
AIP Advances
Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
General Physics and Astronomy
author_sort yang, xiaoying
spelling Yang, Xiaoying Zhang, Ning Yuan, Heng Bian, Guodong Fan, Pengcheng Li, Mingxin 2158-3226 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.5099651 <jats:p>We proposed an annular microstrip-line resonator (AMLR) to provide a broadband, circularly polarized and uniform microwave field for state manipulation of negatively charged nitrogen-vacancy (NV–) center ensembles in order to achieve wide magnetic field detection range and large area microwave synchronous manipulation in miniaturized magnetic sensing devices. The bandwidth of the designed AMLR was 410 MHz when the input return losses was -10dB. With the designed bandwidth, a magnetic field detection range of 292 G was achieved based on the NV– center ensembles. The relationship between the direction of the magnetic field and the phase of the source signal indicated that the generated microwave field of AMLR was circularly polarized. Furthermore, the magnetic field magnitude homogeneity is higher than the parallel-microstrip-lines resonator (PMLR) and the intersected-microstrip-lines resonator (IMLR), and the magnetic field magnitude of AMLR had a difference of 0.012 G in the center of a 1×1 mm2 area. The AMLR has a great potential in magnetic field detection, temperature and pressure detection, which is useful for quantum applications with NV– center ensembles in diamond.</jats:p> Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond AIP Advances
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series AIP Advances
source_id 49
title Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_unstemmed Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_full Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_fullStr Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_full_unstemmed Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_short Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_sort microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.5099651
publishDate 2019
physical
description <jats:p>We proposed an annular microstrip-line resonator (AMLR) to provide a broadband, circularly polarized and uniform microwave field for state manipulation of negatively charged nitrogen-vacancy (NV–) center ensembles in order to achieve wide magnetic field detection range and large area microwave synchronous manipulation in miniaturized magnetic sensing devices. The bandwidth of the designed AMLR was 410 MHz when the input return losses was -10dB. With the designed bandwidth, a magnetic field detection range of 292 G was achieved based on the NV– center ensembles. The relationship between the direction of the magnetic field and the phase of the source signal indicated that the generated microwave field of AMLR was circularly polarized. Furthermore, the magnetic field magnitude homogeneity is higher than the parallel-microstrip-lines resonator (PMLR) and the intersected-microstrip-lines resonator (IMLR), and the magnetic field magnitude of AMLR had a difference of 0.012 G in the center of a 1×1 mm2 area. The AMLR has a great potential in magnetic field detection, temperature and pressure detection, which is useful for quantum applications with NV– center ensembles in diamond.</jats:p>
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author Yang, Xiaoying, Zhang, Ning, Yuan, Heng, Bian, Guodong, Fan, Pengcheng, Li, Mingxin
author_facet Yang, Xiaoying, Zhang, Ning, Yuan, Heng, Bian, Guodong, Fan, Pengcheng, Li, Mingxin, Yang, Xiaoying, Zhang, Ning, Yuan, Heng, Bian, Guodong, Fan, Pengcheng, Li, Mingxin
author_sort yang, xiaoying
container_issue 7
container_start_page 0
container_title AIP Advances
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description <jats:p>We proposed an annular microstrip-line resonator (AMLR) to provide a broadband, circularly polarized and uniform microwave field for state manipulation of negatively charged nitrogen-vacancy (NV–) center ensembles in order to achieve wide magnetic field detection range and large area microwave synchronous manipulation in miniaturized magnetic sensing devices. The bandwidth of the designed AMLR was 410 MHz when the input return losses was -10dB. With the designed bandwidth, a magnetic field detection range of 292 G was achieved based on the NV– center ensembles. The relationship between the direction of the magnetic field and the phase of the source signal indicated that the generated microwave field of AMLR was circularly polarized. Furthermore, the magnetic field magnitude homogeneity is higher than the parallel-microstrip-lines resonator (PMLR) and the intersected-microstrip-lines resonator (IMLR), and the magnetic field magnitude of AMLR had a difference of 0.012 G in the center of a 1×1 mm2 area. The AMLR has a great potential in magnetic field detection, temperature and pressure detection, which is useful for quantum applications with NV– center ensembles in diamond.</jats:p>
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imprint AIP Publishing, 2019
imprint_str_mv AIP Publishing, 2019
institution DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15
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physical
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publisher AIP Publishing
record_format ai
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series AIP Advances
source_id 49
spelling Yang, Xiaoying Zhang, Ning Yuan, Heng Bian, Guodong Fan, Pengcheng Li, Mingxin 2158-3226 AIP Publishing General Physics and Astronomy http://dx.doi.org/10.1063/1.5099651 <jats:p>We proposed an annular microstrip-line resonator (AMLR) to provide a broadband, circularly polarized and uniform microwave field for state manipulation of negatively charged nitrogen-vacancy (NV–) center ensembles in order to achieve wide magnetic field detection range and large area microwave synchronous manipulation in miniaturized magnetic sensing devices. The bandwidth of the designed AMLR was 410 MHz when the input return losses was -10dB. With the designed bandwidth, a magnetic field detection range of 292 G was achieved based on the NV– center ensembles. The relationship between the direction of the magnetic field and the phase of the source signal indicated that the generated microwave field of AMLR was circularly polarized. Furthermore, the magnetic field magnitude homogeneity is higher than the parallel-microstrip-lines resonator (PMLR) and the intersected-microstrip-lines resonator (IMLR), and the magnetic field magnitude of AMLR had a difference of 0.012 G in the center of a 1×1 mm2 area. The AMLR has a great potential in magnetic field detection, temperature and pressure detection, which is useful for quantum applications with NV– center ensembles in diamond.</jats:p> Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond AIP Advances
spellingShingle Yang, Xiaoying, Zhang, Ning, Yuan, Heng, Bian, Guodong, Fan, Pengcheng, Li, Mingxin, AIP Advances, Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond, General Physics and Astronomy
title Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_full Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_fullStr Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_full_unstemmed Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_short Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_sort microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
title_unstemmed Microstrip-line resonator with broadband, circularly polarized, uniform microwave field for nitrogen vacancy center ensembles in diamond
topic General Physics and Astronomy
url http://dx.doi.org/10.1063/1.5099651