Volumetric incorporation of NV diamond emitters in nanostructured F2 glass magneto-optical fiber probes

Filipkowski, Adam; Mrózek, Mariusz; Stępniewski, Grzegorz; Karpate, Tanvi; Głowacki, Maciej J.; Ficek, Mateusz; Gawlik, Wojciech; Buczyński, Ryszard; Wojciechowski, Adam; Bogdanowicz, Robert; Klimczak, Mariusz

doi:10.1016/j.carbon.2022.04.024

Cited by 15 publications

(10 citation statements)

References 45 publications

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“…The 3 A 2 state is the ground unexcited state of the NV (−) -center and, therefore, the final state for all radiative and nonradiative recombination channels, caused by optical excitation of this center, but the sublevels of the 3 A 2 triplet differently affect the radiative recombination channels and luminescence in the case of applying a magnetic field greater than 50 mT. The luminescence intensity is maximum in the case of a zero external magnetic field and decreases significantly (by 15−17%) in the case of self-crossing of 3 A 2 sublevels in a field of ∼ 100 mT [24].…”

Section: Resultsmentioning

confidence: 97%

“…Diamond nanoparticles with NV (−) are successfully used for contouring and visualization of intracellular organelles and tracking the movement of single organelles and neurons with a spatial resolution of at least 15 nanometers [23]. Synthetic diamond microcrystals with NV (−) -centers smaller than 20−30 µm are the most interesting for use as sensors when combined with fiber optics elements, because can be easily placed as sensitive or active elements at the ends of single-and multimode optical fibers and/or in the core of these fibers [24].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Electron spin resonance of NV-=SUP=-(-)-=/SUP=--centers in synthetic fluorescent diamond microcrystals under conditions of optical spin polarization

Yu.

Bogdanov

Rampersaud

et al. 2022

Optics and Spectroscopy

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Electron paramagnetic resonance (EPR) spectra of synthetic diamond microcrystals with NV(-)-centers have been studied. It is shown that under the conditions of irradiation of the material with the light of a xenon lamp at low temperatures ~ 100 K, the intensities of the EPR signals corresponding to the "forbidden" (Delta ms=2) and low field allowed (Delta ms=1) transitions are amplified several times, while the EPR signals from paramagnetic nitrogen and impurity nickel in the charge state -1 practically do not change. This is due to a change in the population of levels of the ground triplet state of the NV(-)- center and the optical polarization of spins in the state ms=0 of the triplet level. Keywords: nitrogen-vacancy centers, synthetic diamond, electron paramagnetic resonance, spin polarization, luminescence.

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Section: Resultsmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Electron spin resonance of NV-=SUP=-(-)-=/SUP=--centers in synthetic fluorescent diamond microcrystals under conditions of optical spin polarization

Yu.

Bogdanov

Rampersaud

et al. 2022

Optics and Spectroscopy

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“…A more detailed characterization of the same diamond powder, including the size dispersion curve and SEM images of individual particles, can be found in our Ref. 30 . Importantly, the MAPLE-deposited film exhibits a fair homogeneity over the glass surface, however, with an insignificant fraction of particles found clustering.…”

Section: Methodsmentioning

confidence: 99%

Wide-field magnetometry using nitrogen-vacancy color centers with randomly oriented micro-diamonds

Sengottuvel

Mrózek

Sawczak

et al. 2022

Sci Rep

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Magnetometry with nitrogen-vacancy (NV) color centers in diamond has gained significant interest among researchers in recent years. Absolute knowledge of the three-dimensional orientation of the magnetic field is necessary for many applications. Conventional magnetometry measurements are usually performed with NV ensembles in a bulk diamond with a thin NV layer or a scanning probe in the form of a diamond tip, which requires a smooth sample surface and proximity of the probing device, often limiting the sensing capabilities. Our approach is to use micro- and nano-diamonds for wide-field detection and mapping of the magnetic field. In this study, we show that NV color centers in randomly oriented submicrometer-sized diamond powder deposited in a thin layer on a planar surface can be used to detect the magnetic field. Our work can be extended to irregular surfaces, which shows a promising path for nanodiamond-based photonic sensors.

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“…Состояние 3 A 2 является основным невозбужденным состоянием NV (−) -центра и, следовательно, конечным состоянием для всех каналов излучательной и безызлучательной рекомбинаций, вызванных оптическим возбуждением этого центра, однако подуровни триплета 3 A 2 по-разному влияют на каналы излучательной рекомбинации и люминесценцию в случае приложения магнитного поля величиной более 50 mT. Интенсивность люминесценции максимальна в случае нулевого внешнего магнитного поля и существенно спадает (на 15−17%) в случае самопересечения уровней в поле ∼ 100 mT [24].…”

Section: экспериментальные результаты и обсуждениеunclassified

“…Наночастицы алмаза с NV (−) успешно используются для оконтуривания и визуализации внутриклеточных органелл и трекинга движения единичных органелл и нейронов с пространственным разрешением не хуже полутора десятков нанометров [23]. Микрокристаллы синтетического алмаза с NV (−) -центрами размером менее 20−30 µm являются наиболее интересными для использования в качестве сенсоров и датчиков при совмещении с элементами волоконной оптики, поскольку легко могут быть размещены в качестве чувствительных или активных элементов на торцах одно-и многомодовых оптических волокон и/или в сердцевине этих волокон [24].…”

Section: Introductionunclassified

Электронный Спиновый Резонанс NV-=SUP=-(-)-=/SUP=--центров В Микрокристаллах Синтетического Флуоресцентного Алмаза В Условиях Оптической Спиновой Поляризации

Осипов¹,

Богданов²,

Rampersaud

et al. 2022

Оптика И Спектроскопия

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Electron paramagnetic resonance (EPR) spectra of synthetic diamond microcrystals with NV(-) centers have been studied. It is shown that under the conditions of irradiation of the material with the light of a xenon lamp at low temperatures ~100 K, the intensities of the EPR signals corresponding to the “forbidden” (dms=2) and low-field allowed (dms=1) transitions are amplified several times, while the EPR signals from paramagnetic nitrogen and impurity nickel in the charge state -1 practically do not change. This is due to a change in the population of levels of the ground triplet state of the NV(-) center and the optical polarization of spins in the state ms=0 of the triplet level.

show abstract

Volumetric incorporation of NV diamond emitters in nanostructured F2 glass magneto-optical fiber probes

Cited by 15 publications

References 45 publications

Electron spin resonance of NV-=SUP=-(-)-=/SUP=--centers in synthetic fluorescent diamond microcrystals under conditions of optical spin polarization

Electron spin resonance of NV-=SUP=-(-)-=/SUP=--centers in synthetic fluorescent diamond microcrystals under conditions of optical spin polarization

Wide-field magnetometry using nitrogen-vacancy color centers with randomly oriented micro-diamonds

Электронный Спиновый Резонанс NV-=SUP=-(-)-=/SUP=--центров В Микрокристаллах Синтетического Флуоресцентного Алмаза В Условиях Оптической Спиновой Поляризации

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