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On an Instrument for the Coherent Investigation of Nitrogen-Vacancy Centres in DiamondPatange, Om January 2013 (has links)
It is my hope that this thesis may serve as a guide for future students wishing to build a microscope from scratch. The design and construction of a scanning, confocal fluorescence microscope equipped with shaped microwave excitation is detailed. The use of the microscope is demonstrated by coherently manipulating single Nitrogen-Vacancy centres in diamond. Further the instrument is used to investigate a dual Halbach array magnet system.
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ダイヤモンドナノ粒子の生体計測応用に関する研究 / APPLICATION OF NANODIAMONDS FOR BIOLOGICAL INVESTIGATION外間, 進悟 23 March 2015 (has links)
Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第19002号 / 工博第4044号 / 新制||工||1622 / 31953 / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 白川 昌宏, 教授 田中 庸裕, 教授 濵地 格 / 学位規則第4条第1項該当
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On an Instrument for the Coherent Investigation of Nitrogen-Vacancy Centres in DiamondPatange, Om January 2013 (has links)
It is my hope that this thesis may serve as a guide for future students wishing to build a microscope from scratch. The design and construction of a scanning, confocal fluorescence microscope equipped with shaped microwave excitation is detailed. The use of the microscope is demonstrated by coherently manipulating single Nitrogen-Vacancy centres in diamond. Further the instrument is used to investigate a dual Halbach array magnet system.
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APPLICATION OF NANODIAMONDS FOR BIOLOGICAL INVESTIGATION / ダイヤモンドナノ粒子の生体計測応用に関する研究Sotoma, Shingo 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19002号 / 工博第4044号 / 新制||工||1622(附属図書館) / 31953 / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 白川 昌宏, 教授 田中 庸裕, 教授 濵地 格 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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Novel Techniques for Detection and Imaging of Spin Related Phenomena: Towards Sub-Diffraction Limited ResolutionWolfe, Christopher Stuart 14 October 2015 (has links)
No description available.
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Magneto-optical studies of dilute nitrides and II-VI diluted magnetic semiconductor quantum structuresDagnelund, Daniel January 2010 (has links)
This thesis work aims at a better understanding of magneto-optical properties of dilute nitrides and II-VI diluted magnetic semiconductor quantum structures. The thesis is divided into two parts. The first part gives an introduction of the research fields, together with a brief summary of the scientific results included in the thesis. The second part consists of seven scientific articles that present the main findings of the thesis work. Below is a short summary of the thesis. Dilute nitrides have been of great scientific interest since their development in the early 1990s, because of their unusual fundamental physical properties as well as their potential for device applications. Incorporation of a small amount of N in conventional Ga(In)As or Ga(In)P semiconductors leads to dramatic modifications in both electronic and optical properties of the materials. This makes the dilute nitrides ideally suited for novel optoelectronic devices such as light emitting devices for fiber-optic communications, highly efficient visible light emitting devices, multi-junction solar cells, etc. In addition, diluted nitrides open a window for combining Si-based electronics with III-V compounds-based optoelectronics on Si wafers, promising for novel optoelectronic integrated circuits. Full exploration and optimization of this new material system in device applications requires a detailed understanding of their physical properties. Papers I and II report detailed studies of effects of post-growth rapid thermal annealing (RTA) and growth conditions (i.e. presence of N ions, N2 flow, growth temperature and In alloying) on the formation of grown-in defects in Ga(In)NP. High N2 flow and bombardment of impinging N ions on grown sample surface is found to facilitate formation of defects, such as Ga interstitial (Gai) related defects, revealed by optically detected magnetic resonance (ODMR). These defects act as competing carrier recombination centers, which efficiently decrease photoluminescence (PL) intensity. Incorporation of a small amount of In (e.g. 5.1%) in GaNP seems to play a minor role in the formation of the defects. In GaInNP with 45% of In, on the other hand, the defects were found to be abundant. Effect of RTA on the defects is found to depend on initial configurations of Gai related defects formed during the growth. In Paper III, the first identification of an interfacial defect at a heterojunction between two semiconductors (i.e. GaP/GaNP) is presented. The interface nature of the defect is clearly manifested by the observation of ODMR lines originating from only two out of four equivalent <111> orientations. Based on its resolved hyperfine interaction between an unpaired electronic spin (S=1/2) and a nuclear spin (I=1/2), the defect is concluded to involve a P atom at its core with a defect/impurity partner along a <111> direction. Defect formation is shown to be facilitated by N ion bombardment. In Paper IV, the effects of post-growth hydrogenation on the efficiency of the nonradiative (NR) recombination centers in GaNP are studied. Based on the ODMR results, incorporation of H is found to increase the efficiency of the NR recombination via defects such as Ga interstitials. In Paper V, we report on our results from a systematic study of layered structures containing an InGaNAs/GaAs quantum well, by the optically detected cyclotron resonance (ODCR) technique. By monitoring PL emissions from various layers, the predominant ODCR peak is shown to be related to electrons in GaAs/AlAs superlattices. This demonstrates the role of the SL as an escape route for the carriers confined within the InGaNAs/GaAs single quantum well. The last two papers are within a relatively new field of spintronics which utilizes not only the charge (as in conventional electronics) but also the quantum mechanical property of spin of the electron. Spintronics offers a pathway towards integration of information storage, processing and communications into a single technology. Spintronics also promises advantages over conventional charge-based electronics since spin can be manipulated on a much shorter time scale and at lower cost of energy. Success of semiconductor-based spintronics relies on our ability to inject spin polarized electrons or holes into semiconductors, spin transport with minimum loss and reliable spin detection. In Papers VI and VII, we study the efficiency and mechanism for carrier/exciton and spin injection from a diluted magnetic semiconductor (DMS) ZnMnSe quantum well into nonmagnetic CdSe quantum dots (QD’s) by means of spin-polarized magneto PL combined with tunable laser spectroscopy. By means of a detailed rate equation analysis presented in Paper VI, the injected spin polarization is deduced to be about 32%, decreasing from 100% before the injection. The observed spin loss is shown to occur during the spin injection process. In Paper VII, we present evidence that energy transfer is the dominant mechanism for carrier/exciton injection from the DMS to the QD’s. This is based on the fact that carrier/exciton injection efficiency is independent of the width of the ZnSe tunneling barrier inserted between the DMS and QD’s. In sharp contrast, spin injection efficiency is found to be largely suppressed in the structures with wide barriers, pointing towards increasing spin loss.
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Yield Optimization of Nitrogen Vacancy Centers in DiamondChen, Jeson 2011 August 1900 (has links)
To fully exploit the capability of NV centers in diamond as magnetic sensors and
quantum bits, the optimum production recipe as well as the method to enhance its optical
performance has been studied in this work. The NV centers in bulk diamond were
prepared by ion implantation and electron irradiation, and the optimum dose and
temperature are found by comparing its optical and magnetic performance both
experimentally and theoretically. In addition, the enhancement of optical performance
and size characterization of NV centers in nanodiamonds will be discussed in this work.
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Bright optical centre in diamond with narrow, highly polarised and nearly phonon-free fluorescence at room temperatureJohn, Roger, Lehnert, Jan, Mensing, Michael, Spemann, Daniel, Pezzagna, Sébastien, Meijer, Jan 25 April 2023 (has links)
Using shallow implantation of ions and molecules with masses centred at 27 atomic mass units(amu)
in diamond, a new artificial optical centre with unique properties has been created. The centre shows a
linearly polarised fluorescence with a main narrow emission line mostly found at 582 nm, together
with a weak vibronic sideband at room temperature. The fluorescence lifetime is∼2 ns and the
brightest centres are more than three times brighter than the nitrogen-vacancy centres. A majority of
the centres shows stable fluorescence whereas some others present a blinking behaviour, at faster or
slower rates. Furthermore, a second kind of optical centre has been simultaneously created in the same
diamond sample, within the same ion implantation run. This centre has a narrow zero-phonon line
(ZPL) at∼546 nm and a broad phonon sideband at room temperature. Interestingly, optically
detected magnetic resonance (ODMR) has been measured on several single 546 nm centres and two
resonance peaks are found at 0.99 and 1.27 GHz. In view of their very similar ODMR and optical
spectra, the 546 nm centre is likely to coincide with the ST1 centre, reported once (with a ZPL at
550 nm), but of still unknown nature. These new kinds of centres are promising for quantum
information processing, sub-diffraction optical imaging or use as single-photon sources.
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Interactions between spin transport and dynamics studied using spatially resolved imaging and magnetic resonancePage, Michael Roy January 2016 (has links)
No description available.
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Development of ultrasmall diamond sensors with detonation nanodiamonds / 爆轟法ナノダイヤモンドを用いた超小型ダイヤモンドセンサーの開発So, Tze Kit 25 March 2024 (has links)
京都大学 / 新制・課程博士 / 博士(工学) / 甲第25305号 / 工博第5264号 / 新制||工||2001(附属図書館) / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 水落 憲和, 教授 浜地 格, 教授 SIVANIAHEasan / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM
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