Gotowe bibliografie tematyczne / Quantum material

Gotowa bibliografia na temat „Quantum material”

Autor: Grafiati
Data publikacji: 1 kwietnia 2023

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Spis treści

  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
  5. Streszczenia konferencji
  6. Raporty organizacyjne

Artykuły w czasopismach na temat "Quantum material":

1

Dai, Xian Hua, i Hong Li. "A Survey on Additivity Conjecture". Applied Mechanics and Materials 203 (październik 2012): 497–99. http://dx.doi.org/10.4028/www.scientific.net/amm.203.497.

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Quantum material is one emerging branch of advanced materials. Quantum entanglement is one intrinsic property for quantum material, in particular, in quantum communication. Additivity conjecture is a long standing problem for quantum material to transmit information. This note surveys additivity conjecture in some kinds of forms, and introduces some known results including relations between them.
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JUNG, Suyong, Junho SUH i Yong-Sung KIM. "Quantum Material Metrology based on Nanoscale Quantum Devices". Physics and High Technology 28, nr 11 (30.11.2019): 8–14. http://dx.doi.org/10.3938/phit.28.044.

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Yu Xiang-Min, Tan Xin-Sheng, Yu Hai-Feng i Yu Yang. "Topological quantum material simulated with superconducting quantum circuits". Acta Physica Sinica 67, nr 22 (2018): 220302. http://dx.doi.org/10.7498/aps.67.20181857.

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Castelletto, Stefania, Faraz A. Inam, Shin-ichiro Sato i Alberto Boretti. "Hexagonal boron nitride: a review of the emerging material platform for single-photon sources and the spin–photon interface". Beilstein Journal of Nanotechnology 11 (8.05.2020): 740–69. http://dx.doi.org/10.3762/bjnano.11.61.

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Single-photon sources and their optical spin readout are at the core of applications in quantum communication, quantum computation, and quantum sensing. Their integration in photonic structures such as photonic crystals, microdisks, microring resonators, and nanopillars is essential for their deployment in quantum technologies. While there are currently only two material platforms (diamond and silicon carbide) with proven single-photon emission from the visible to infrared, a quantum spin–photon interface, and ancilla qubits, it is expected that other material platforms could emerge with similar characteristics in the near future. These two materials also naturally lead to monolithic integrated photonics as both are good photonic materials. While so far the verification of single-photon sources was based on discovery, assignment and then assessment and control of their quantum properties for applications, a better approach could be to identify applications and then search for the material that could address the requirements of the application in terms of quantum properties of the defects. This approach is quite difficult as it is based mostly on the reliability of modeling and predicting of color center properties in various materials, and their experimental verification is challenging. In this paper, we review some recent advances in an emerging material, low-dimensional (2D, 1D, 0D) hexagonal boron nitride (h-BN), which could lead to establishing such a platform. We highlight the recent achievements of the specific material for the expected applications in quantum technologies, indicating complementary outstanding properties compared to the other 3D bulk materials.
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de Graaf, S. E., S. Un, A. G. Shard i T. Lindström. "Chemical and structural identification of material defects in superconducting quantum circuits". Materials for Quantum Technology 2, nr 3 (19.07.2022): 032001. http://dx.doi.org/10.1088/2633-4356/ac78ba.

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Abstract Quantum circuits show unprecedented sensitivity to external fluctuations compared to their classical counterparts, and it can take as little as a single atomic defect somewhere in a mm-sized area to completely spoil device performance. For improved device coherence it is thus essential to find ways to reduce the number of defects, thereby lowering the hardware threshold for achieving fault-tolerant large-scale error-corrected quantum computing. Given the evasive nature of these defects, the materials science required to understand them is at present in uncharted territories, and new techniques must be developed to bridge existing capabilities from materials science with the needs identified by the superconducting quantum circuit community. In this paper, we give an overview of methods for characterising the chemical and structural properties of defects in materials relevant for superconducting quantum circuits. We cover recent developments from in-operation techniques, where quantum circuits are used as probes of the defects themselves, to in situ analysis techniques and well-established ex situ materials analysis techniques. The latter is now increasingly explored by the quantum circuits community to correlate specific material properties with qubit performance. We highlight specific techniques which, given further development, look especially promising and will contribute towards a future toolbox of material analysis techniques for quantum.
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Zhang, Jie-Yin, Fei Gao i Jian-Jun Zhang. "Research progress of silicon and germanium quantum computing materials". Acta Physica Sinica 70, nr 21 (2021): 217802. http://dx.doi.org/10.7498/aps.70.20211492.

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Semiconductor quantum dot is one of the promising ways to realize solid-state quantum computing. The key is to obtain high-quality semiconductor quantum computing materials. Silicon and germanium can be isotopically purified to achieve nuclear spin-free isotopes, meeting the requirement for long decoherence time. They are also compatible with the current CMOS technology, thus making them ideal material platforms for large scale integration. This review first summarizes the important progress of semiconductor quantum-dot quantum computing in recent years, then focuses on the material progress including the silicon-based Si/SiGe heterostructures, Ge/SiGe heterostructures, and Ge/Si one-dimensional wires, finally presents the outlook about the development of silicon and Ge quantum computing materials.
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Yang, HeeBong, i Na Young Kim. "Material-Inherent Noise Sources in Quantum Information Architecture". Materials 16, nr 7 (23.03.2023): 2561. http://dx.doi.org/10.3390/ma16072561.

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NISQ is a representative keyword at present as an acronym for “noisy intermediate-scale quantum”, which identifies the current era of quantum information processing (QIP) technologies. QIP science and technologies aim to accomplish unprecedented performance in computation, communications, simulations, and sensing by exploiting the infinite capacity of parallelism, coherence, and entanglement as governing quantum mechanical principles. For the last several decades, quantum computing has reached to the technology readiness level 5, where components are integrated to build mid-sized commercial products. While this is a celebrated and triumphant achievement, we are still a great distance away from quantum-superior, fault-tolerant architecture. To reach this goal, we need to harness technologies that recognize undesirable factors to lower fidelity and induce errors from various sources of noise with controllable correction capabilities. This review surveys noisy processes arising from materials upon which several quantum architectures have been constructed, and it summarizes leading research activities in searching for origins of noise and noise reduction methods to build advanced, large-scale quantum technologies in the near future.
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Pan, Xing-Chen, Xuefeng Wang, Fengqi Song i Baigeng Wang. "The study on quantum material WTe2". Advances in Physics: X 3, nr 1 (styczeń 2018): 1468279. http://dx.doi.org/10.1080/23746149.2018.1468279.

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Patrick, Chris. "Lasers advance 2D quantum material manufacturing". Scilight 2019, nr 25 (21.06.2019): 250014. http://dx.doi.org/10.1063/1.5115490.

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Bogdanov, S., M. Y. Shalaginov, A. Boltasseva i V. M. Shalaev. "Material platforms for integrated quantum photonics". Optical Materials Express 7, nr 1 (8.12.2016): 111. http://dx.doi.org/10.1364/ome.7.000111.

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Artykuły w czasopismach Rozprawy doktorskie Książki

Rozprawy doktorskie na temat "Quantum material":

1

Zietal, Robert J. "Quantum elecrodynamics near material boundaries". Thesis, University of Sussex, 2010. http://sro.sussex.ac.uk/id/eprint/2520/.

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Quantum electrodynamics in free-space is a well-understood and a very successful theory. This is not the case when polarizable boundaries are present, which is a common scenario. The presence of reflective surfaces affects the photon field. Thereby the quantummechanical vacuum fluctuations of the electromagnetic field are constrained leading to changes in the interaction energies of charged particles which are directly measurable. One of the most famous examples of such an effect is the Lamb shift of an atom in front of a perfectly reflecting mirror, which depends on the distance of the atom from the mirror, thus giving rise to an attractive force - the so-called Casimir-Polder force. This thesis touches upon current challenges of quantum electrodynamics with externally applied boundary conditions, which is of increasing importance for nanotechnology and its applications in physics, chemistry and biology. When studying the abovementioned vacuum effects one can use models of various degrees of sophistication for the material properties that need to be taken into account. The simplest is to assume perfect reflectivity. This leads to simple boundary conditions on the electromagnetic field and thereby its quantum fluctuations. The difficulty of such calculations then lies only in the possibly complex geometry of the macroscopic body. The next possible level of sophistication is to allow imperfect reflectivity. The simplest way to achieve this is by considering a material with constant and frequency-independent refractive index. However, for all real material surfaces the reflectivity is frequency-dependent. Causality then requires that dispersion is accompanied by absorption. The aim of this project was twofold: (i) to construct, using well-understood tools of theoretical physics, the microscopic theory of quantum systems, like atoms, interacting with macroscopic polarizable media, which would facilitate relatively simple perturbative calculations of QED corrections due to the presence of boundaries, (ii) to apply the developed formalism to the calculation of the Casimir-Polder force between an atom and a realistic material.
2

Matloob, Mohammad Reza. "Theory of electromagnetic field quantization in material media". Thesis, University of Essex, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.282572.

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Wang, Qi. "Study of InGaN based quantum dot material and devices". Thesis, University of Sheffield, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.522509.

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Wong, Huei Ching. "Investigation of quantum dot based material systems for metro-access network". Thesis, University of Bristol, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.437270.

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Blay, Claire. "Characterisation of intermixed quantum well material by measurements of spontaneous emission". Thesis, University of Bath, 2000. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.323571.

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BRUNI, FRANCESCO. "NOVEL MATERIAL DESIGN AND MANIPULATION STRATEGIES FOR ADVANCED OPTOELECTRONIC APPLICATIONS". Doctoral thesis, Università degli Studi di Milano-Bicocca, 2017. http://hdl.handle.net/10281/151660.

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Il mio progetto di dottorato è stato focalizzato sui semiconduttori organici per applicazioni fotovoltaiche e di fotorivelazione. Inizialmente ho lavorato sul controllo morfologico di blende binarie di molecole organiche e fullereni usando la cosiddetta strategia dei pigmenti latenti. In particolare ho lavorato sull'ingenierizzazione dello strato attivo di celle solari organiche a eterogiunzione. Ho dimostrato una nuova strategia per controllare la segregazione di fase in film sottili di molecole elettron donatrici e fullereni, introducendo nel sistema un network di legami di idrogeno attivato termicamente. Successivamente ho studiato i processi di accumulazione di carica all’interfaccia tra acqua e un semiconduttore polimerico per applicazioni biomediche per mezzo di nanocristalli colloidali biemissivi con alta sensibilità verso agenti elettronattrattori. In fine, ho dedicato l’ultima parte del mio lavoro all’approfondimento delle possibili applicazioni di questa classe di nanocristalli come sensori raziometrici di pH intracellulare e come vernici per il monitoraggio ottico della pressione.
My PhD has been focused on organic semiconductors for photovoltaics and photodetecting applications. Initially, I worked on the control of the morphology in binary blends of small organic molecules and fullerenes using the so called latent pigment approach. Subsequently, I investigated the charge accumulation and polarization effect occurring at the interface between water and a polymeric semiconductor used as optical component in retinal prosthesis by means of inorganic colloidal nanocrystals featuring a ratiometric sensing ability for electron withdrawing agents. As a last part of the work, I focalized on the applications of these nanocrystals as ratiometric sensors for intracellular pH probing and pressure optical monitoring. Specifically, during the first part of my PhD, I worked in the field of organic photovoltaics on the morphology engineering of the active layer of small molecules bulk-heterojunction solar cells. I demonstrated a new strategy to fine tune the phase-segregation in thin films of a suitably functionalized electron donor blended with fullerene derivatives by introducing in the system a post-deposition thermally activated network of hydrogen bonds that leads to improved stability and high crystallinity. Moreover, this process increases the carrier mobility of the donor species and allows for controlling the size of segregated domains resulting in an improved efficiency of the photovoltaic devices. This work revealed the great potential of the latent hydrogen bonding strategy that I subsequently exploited to fabricate nanometric semiconductive features on the film surface by using a very simple maskless lithographic technique. To do so, I focalized a UV laser into a confocal microscope and used the objective as a “brush” to thermically induce a localized hydrogen bonding driven crystallization with diffraction limited resolution. My work on organic semiconductors continued with a study on the surface polarization driven charge separation at the P3HT/water interfaces in optoelectronic devices for biologic applications. In this work, I probed the local accumulation of positive charges on the P3HT surface in aqueous environment by exploiting the ratiometric sensing capabilities of particular engineered core/shell heterostuctures called dot-in-bulk nanocrystals (DiB-NCs). These structures feature two-colour emission due to the simultaneous recombination of their core and shell localized excitons. Importantly, the two emissions are differently affected by the external chemical environment, making DiB-NCs ideal optical ratiometric sensors. In the second part of my PhD, I, therefore, focalized on the single particle sensing application of DiB-NCs. Specifically, I used them to ratiometrically probe intracellular pH in living cells. With this aim, I studied their ratiometric response in solution by titration with an acid and a base. Subsequently, I internalized them into living human embryonic kidney (HEK) cells and monitored an externally induced alteration of the intracellular pH. Importantly, viability test on DiB-NCs revealed no cytotoxicity demonstrating their great potential as ratiometric pH probes for biologic application. Finally, I used DiB-NCs as a proof-of-concept single particle ratiometric pressure sensitive paint (r-PSP). In this application, the emission ratio between the core and the shell emission is used to determine the oxygen partial pressure and therefore the atmospheric pressure of the NC environment.
7

Rasin, Ahmed Tasnim. "High efficiency quantum dot-sensitised solar cells by material science and device architecture". Thesis, Queensland University of Technology, 2014. https://eprints.qut.edu.au/78822/1/Ahmed%20Tasnim_Rasin_Thesis.pdf.

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This thesis studied cadmium sulfide and cadmium selenide quantum dots and their performance as light absorbers in quantum dot-sensitised solar cells. This research has made contributions to the understanding of size dependent photodegradation, passivation and particle growth mechanism of cadmium sulfide quantum dots using SILAR method and the role of ZnSe shell coatings on solar cell performance improvement.
8

Pillar-Little, Timothy J. Jr. "CARBON QUANTUM DOTS: BRIDGING THE GAP BETWEEN CHEMICAL STRUCTURE AND MATERIAL PROPERTIES". UKnowledge, 2018. https://uknowledge.uky.edu/chemistry_etds/94.

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Carbon quantum dots (CQDs) are the latest generation of carbon nanomaterials in applications where fullerenes, carbon nanotubes, and graphene are abundantly used. With several attractive properties such as tunable optical property, edge-functionalization, and defect-rich chemical structure, CQDs have the potential to revolutionize optoelectronics, electro- and photocatalysis, and biomedical applications. Chemical modifications through the addition of heteroatoms, chemical reduction, and surface passivation are found to alter the band gap, spectral position, and emission pathways of CQDs. Despite extensive studies, fundamental understanding of structure-property relationship remains unclear due to the inhomogeneity in chemical structure and a complex emission mechanism for CQDs. This dissertation outlines a series of works that investigate the structure-property relationship of CQDs and its impact in a variety of applications. First, this relationship was explored by modifying specific chemical functionalities of CQDs and relating them to differences observed in optical, catalytic, and pharmacological performance. While a number of scientific articles reported that top-down or bottom-up synthesized CQDs yielded similar properties, the results herein present dissimilar chemical structures as well as photoluminescent and metal sensing properties. Second, the role of nitrogen heteroatoms in top-down synthesized CQD was studied. The effect of nitrogen atoms on spectral position and fluorescence quantum yield was considerably studied in past reports; however, thorough investigation to differentiate various nitrogen related chemical states was rarely reported. By finely tuning both the quantity of nitrogen doping and the distribution of nitrogen-related chemical states, we found that primary amine and pyridine induce a red-shift in emission while pyrrolic and graphitic nitrogen produced a blue-shift in emission. The investigation of nitrogen chemical states was extended to bottom-up synthesized CQDs with similar results. Finally, top-down, bottom-up, nitrogen-doped and chemically reduced CQDs were separately tested for their ability to act as photodynamic anti-cancer agents. This series of experiments uncovered the distribution of reactive oxygen species produced during light exposure which elucidated the photodynamic mechanisms of cancer cytotoxicity. The results presented in this dissertation provide key insight into engineering finely-tailored CQDs as the ideal nanomaterial for a broad range of applications.
9

Hatami, Soheil, Christian Würth, Martin Kaiser, Susanne Leubner, Stefanie Gabriel, Lydia Bahrig, Vladimir Lesnyak i in. "Absolute photoluminescence quantum yields of IR26 and IR-emissive Cd₁₋ₓHgₓTe and PbS quantum dots: method- and material-inherent challenges". Royal Society of Chemistry, 2015. https://tud.qucosa.de/id/qucosa%3A36307.

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Bright emitters with photoluminescence in the spectral region of 800–1600 nm are increasingly important as optical reporters for molecular imaging, sensing, and telecommunication and as active components in electrooptical and photovoltaic devices. Their rational design is directly linked to suitable methods for the characterization of their signal-relevant properties, especially their photoluminescence quantum yield (Φf ). Aiming at the development of bright semiconductor nanocrystals with emission >1000 nm, we designed a new NIR/IR integrating sphere setup for the wavelength region of 600–1600 nm. We assessed the performance of this setup by acquiring the corrected emission spectra and Φf of the organic dyes |trybe, IR140, and IR26 and several infrared (IR)-emissive Cd₁₋ₓHgₓTe and PbS semiconductor nanocrystals and comparing them to data obtained with two independently calibrated fluorescence instruments absolutely or relative to previously evaluated reference dyes. Our results highlight special challenges of photoluminescence studies in the IR ranging from solvent absorption to the lack of spectral and intensity standards together with quantum dot-specific challenges like photobrightening and photodarkening and the size-dependent air stability and photostability of differently sized oleate-capped PbS colloids. These effects can be representative of lead chalcogenides. Moreover, we redetermined the Φf of IR26, the most frequently used IR reference dye, to 1.1 × 10⁻³ in 1,2-dichloroethane DCE with a thorough sample reabsorption and solvent absorption correction. Our results indicate the need for a critical reevaluation of Φf values of IR-emissive nanomaterials and offer guidelines for improved Φf measurements.
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Stavrinou, Paul Nicholas. "A study of InP-based strained layer heterostructures". Thesis, University College London (University of London), 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.261711.

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Książki na temat "Quantum material":

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Aoki, Yuriko, Yuuichi Orimoto i Akira Imamura. Quantum Chemical Approach for Organic Ferromagnetic Material Design. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-49829-4.

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Dipak, Basu, red. Dictionary of material science and high energy physics. Boca Raton, Fla: CRC Press, 2001.

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Goswami, Amit. The self-aware universe: How consciousness creates the material world. New York: Jeremy P. Tarcher/Putnam, 1995.

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International Symposium on Quantum Fluids and Solids (1989 University of Florida). Quantum fluids and solids--1989, Gainesville, FL 1989. Redaktorzy Ihas G. G i Takano Yasumasa. New York: American Institute of Physics, 1989.

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Goswami, Amit. The self-aware universe: How consciousness creates the material world. New York: Putnam's Sons, 1993.

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Kilina, Svetlana V. Excitonic and vibrational dynamics in nanotechnology: Quantum dots vs. nanotubes. Singapore: Pan Stanford Pub., 2009.

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Haug, H. Quantum kinetics in transport and optics of semiconductors. Berlin: Springer, 1996.

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Gore, Gordon R. A student's guide to physics 12: A brief summary of core material and the quantum physics option in physics 12 for British Columbia. [Mission, B.C.]: G.R. Gore, 1991.

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A, Goldman J., Brennan K. F i United States. National Aeronautics and Space Administration., red. Theoretical and material studies of thin-film electroluminescent devices: Sixth six-monthly report for the period 1 November 1987 - 30 April 1988. Atlanta, GA: Georgia Institute of Technology ; [Washington, DC, 1988.

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F, Brennan K., i United States. National Aeronautics and Space Administration., red. Theoretical and material studies of thin-film electroluminescent devices: Second six monthly report for the period 1 October 1985 - 31 March 1986. [Washington, DC: National Aeronautics and Space Administration, 1986.

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Części książek na temat "Quantum material":

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Hermann, Jan. "Introduction to Material Modeling". W Machine Learning Meets Quantum Physics, 7–24. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40245-7_2.

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Fernández, Roberto, Jürg Fröhlich i Alan D. Sokal. "Background material". W Random Walks, Critical Phenomena, and Triviality in Quantum Field Theory, 275–95. Berlin, Heidelberg: Springer Berlin Heidelberg, 1992. http://dx.doi.org/10.1007/978-3-662-02866-7_13.

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Brandt, Siegmund, Hans Dieter Dahmen i Tilo Stroh. "Additional Material and Hints for the Solution of Exercises". W Interactive Quantum Mechanics, 269–314. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-1-4419-7424-2_12.

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Brandt, Siegmund, Hans Dieter Dahmen i Tilo Stroh. "Additional Material and Hints for the Solution of Exercises". W Interactive Quantum Mechanics, 206–47. New York, NY: Springer New York, 2003. http://dx.doi.org/10.1007/978-0-387-21653-9_10.

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Son, Dong-Ick, i Won-Kook Choi. "New Nanoscale Material: Graphene Quantum Dots". W Nanomaterials, Polymers, and Devices, 141–94. Hoboken, NJ, USA: John Wiley & Sons, Inc, 2015. http://dx.doi.org/10.1002/9781118867204.ch6.

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Horak, R., J. Bjer, C. Sibilia i M. Bertolotti. "Diffraction Free Field Propagation in Nonlinear Material". W Coherence and Quantum Optics VII, 685–86. Boston, MA: Springer US, 1996. http://dx.doi.org/10.1007/978-1-4757-9742-8_213.

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Ambjørn, Jan. "Preliminary Material Part 1: The Path Integral". W Elementary Introduction to Quantum Geometry, 1–14. Boca Raton: CRC Press, 2022. http://dx.doi.org/10.1201/9781003320562-1.

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Ito, Ryoichi, Chang-qing Xu i Takashi Kondo. "(C10H21NH3)2PbI4: A natural quantum-well material". W Solid State Materials, 157–68. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-662-09935-3_9.

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Barbeau, Michel. "Secure Quantum Data Communications Using Classical Keying Material". W Quantum Technology and Optimization Problems, 183–95. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-14082-3_16.

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Ray, Samit K., Subhrajit Mukherjee, Tamal Dey, Subhajit Jana i Elad Koren. "Two-Dimensional Material-Based Quantum Dots for Wavelength-Selective, Tunable, and Broadband Photodetector Devices". W Quantum Dot Photodetectors, 249–87. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-74270-6_6.

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Streszczenia konferencji na temat "Quantum material":

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Dutta, A., A. P. M. Place, K. D. Crowley, X. H. Le, Y. Gang, L. V. H. Rodgers, T. Madhavan i in. "Study of material loss channels in tantalum microwave superconducting resonators". W Quantum 2.0. Washington, D.C.: Optica Publishing Group, 2022. http://dx.doi.org/10.1364/quantum.2022.qtu2a.25.

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We identify candidate loss channels in tantalum by correlating X-ray photoelectron spectroscopy measurements with power and temperature dependent variation of the quality factor of superconducting coplanar waveguide microwave resonators.
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TAKADA, TOSHIKAZU. "WHAT QUANTUM CHEMISTS LEARN FROM BIO MATERIAL SIMULATIONS?" W Quantum Bio-Informatics — From Quantum Information to Bio-Informatics. WORLD SCIENTIFIC, 2008. http://dx.doi.org/10.1142/9789812793171_0031.

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Lisnichenko, Marina, i Stanislav Protasov. "BIO MATERIAL MODELING QUANTUM CIRCUIT COMPRESSION". W Mathematical modeling in materials science of electronic component. LCC MAKS Press, 2022. http://dx.doi.org/10.29003/m3058.mmmsec-2022/15-17.

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Bioelectronics is a perspective future of electronics. The modelling of the protein is an important part that allows to search the appropriate folding structure with applicable conductivity properties. The classical computers struggle from modelling large structures because of number degrees of freedom. The mathematical modelling inside the quantum programming paradigm is a possible way to overcome this factor. This work describes a simplification algorithm of bio material (protein) model used in bioelectronics
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Michael, Stephan, Weng W. Chow i Hans Christian Schneider. "Quantum dots as active material for quantum cascade lasers: comparison to quantum wells". W SPIE OPTO, redaktorzy Alexey A. Belyanin i Peter M. Smowton. SPIE, 2016. http://dx.doi.org/10.1117/12.2213324.

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Beckert, Adrian, Joe Bailey, Guy Matmon, Simon Gerber, Hans Sigg i Gabriel Aeppli. "LiY1-xHoxF4: a candidate material for the implementation of solid state qubits (Conference Presentation)". W Quantum Technologies, redaktorzy Andrew J. Shields, Jürgen Stuhler i Miles J. Padgett. SPIE, 2018. http://dx.doi.org/10.1117/12.2307317.

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Yoshie, Tomoyuki, Marko Loncar, Koichi Okamoto, Yueming Qiu, Oleg B. Shchekin, Hao Chen, Dennis G. Deppe i Axel Scherer. "Photonic crystal nanocavities with quantum well or quantum dot active material". W Integrated Optoelectronic Devices 2004, redaktorzy Ali Adibi, Axel Scherer i Shawn-Yu Lin. SPIE, 2004. http://dx.doi.org/10.1117/12.525869.

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Kay, Bruce D., T. D. Raymond i Michael E. Coltrin. "Quantum-Resolved Gas-Surface Scattering: NH3 from Au (111)". W Lasers in Material Diagnostics. Washington, D.C.: Optica Publishing Group, 1987. http://dx.doi.org/10.1364/lmd.1987.we2.

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We have measured angular, velocity, and quantum-state distributions for ammonia molecules scattered from a gold (111) single crystal for a number of surface temperatures and incident beam energies. A molecular beam source produces a well-collimated, rotationally cold (~15 K) beam of NH3 molecules with a narrow dispersion of translational energy (~10%). The molecular beam impinges on an atomically clean, single crystal of gold (111) and the scattered NH3 is detected in a quantum-resolved manner using two-photon resonant, three-photon ionization [1].
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Carignan, L., D. Menard i C. Caloz. "Ferromagnetic nanowire material electromagnetic and quantum devices". W TELSIKS 2011 - 2011 10th International Conference on Telecommunication in Modern Satellite, Cable and Broadcasting Services. IEEE, 2011. http://dx.doi.org/10.1109/telsks.2011.6111771.

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Schaevitz, Rebecca K., Jonathan E. Roth, Onur Fidaner i David A. B. Miller. "Material properties in SiGe/Ge quantum wells". W Frontiers in Optics. Washington, D.C.: OSA, 2007. http://dx.doi.org/10.1364/fio.2007.fmc3.

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Aubergier, Nathan, Patricia Loren, Julien Guise, Franziska Braho, Pierre Fehlen, Melissa Najem, Fernando Gonzalez-Posada i in. "Quantum plasmonics and hyperbolic material for biosensing". W Quantum Sensing and Nano Electronics and Photonics XVIII, redaktorzy Manijeh Razeghi, Giti A. Khodaparast i Miriam S. Vitiello. SPIE, 2022. http://dx.doi.org/10.1117/12.2615652.

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Raporty organizacyjne na temat "Quantum material":

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Pettes, Michael Thompson. Deterministic Quantum Emission in an Epitaxial 2D Material. Office of Scientific and Technical Information (OSTI), lipiec 2020. http://dx.doi.org/10.2172/1529528.

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Xiao, John. Spin orbit torque in ferromagnet/topological-quantum-material heterostructures. Office of Scientific and Technical Information (OSTI), sierpień 2018. http://dx.doi.org/10.2172/1886831.

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Panfil, Yossef E., Meirav Oded, Nir Waiskopf i Uri Banin. Material Challenges for Colloidal Quantum Nanostructures in Next Generation Displays. AsiaChem Magazine, listopad 2020. http://dx.doi.org/10.51167/acm00008.

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The recent technological advancements have greatly improved the quality and resolution of displays. Yet, issues like full-color gamut representation and the long-lasting durability of the color emitters require further progression. Colloidal quantum dots manifest an inherent narrow spectral emission with optical stability, combined with various chemical processability options which will allow for their integration in display applications. Apart from their numerous advantages, they also present unique opportunities for the next technological leaps in the field.
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Mitchell, B. G. Quantum Yields of Soluble and Particulate Material in the Ocean. Fort Belvoir, VA: Defense Technical Information Center, wrzesień 1999. http://dx.doi.org/10.21236/ada375906.

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Adams, George F., i Cary F. Chabalowski. Quantum Chemical Studies of Candidate High Energy Density Material Compounds. Fort Belvoir, VA: Defense Technical Information Center, styczeń 1991. http://dx.doi.org/10.21236/ada232393.

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Dominguez, Francisco Javier, Predrag Krstic, Jean Paul Allain, Felipe Bedoya i Bruce Koel. Quantum-Classical Science for the Plasma-Material Interface in NSTXU - Final Technical Report. Office of Scientific and Technical Information (OSTI), wrzesień 2019. http://dx.doi.org/10.2172/1567016.

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Mounce, Andrew, Joe Thompson, Eric Bauer, A. Reyes i P. Kuhns. Novel Magnetic States in the Heavy-Fermion Quantum-Critical Material CeRhIn5 at High Magnetic Fields Studied by NMR. Office of Scientific and Technical Information (OSTI), grudzień 2014. http://dx.doi.org/10.2172/1165175.

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Disterhaupt, Jennifer, Michael James i Marc Klasky. (U) Segmented Scintillator Pitch, Thickness, and Septa Material Effects on the Swank Factor, Quantum Efficiency, and DQE(0) for High-Energy X-Ray Radiography. Office of Scientific and Technical Information (OSTI), marzec 2021. http://dx.doi.org/10.2172/1770096.

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Nenoff, Tina M., Tina M. Nenoff, Tina M. Nenoff, Tina M. Nenoff, Stanley Shihyao Chou, Stanley Shihyao Chou, Peter Dickens i in. Topological Quantum Materials for Quantum Computation. Office of Scientific and Technical Information (OSTI), październik 2019. http://dx.doi.org/10.2172/1569786.

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Misra, Shashank, Daniel Robert Ward, Andrew David Baczewski, Quinn Campbell, Scott William Schmucker, Andrew M. Mounce, Lisa A. Tracy, Tzu-Ming Lu, Michael Thomas Marshall i DeAnna Marie Campbell. Designer quantum materials. Office of Scientific and Technical Information (OSTI), wrzesień 2019. http://dx.doi.org/10.2172/1592939.

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