Relevant bibliographies by topics / Diluted magnetic semiconductor (DMS)

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Diluted magnetic semiconductor (DMS)'

Author: Grafiati
Published: 4 June 2021
Last updated: 9 March 2023

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Journal articles on the topic "Diluted magnetic semiconductor (DMS)"

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CHOI, HEON-JIN, HAN-KYU SEONG, and UNGKIL KIM. "DILUTED MAGNETIC SEMICONDUCTOR NANOWIRES." Nano 03, no. 01 (2008): 1–19. http://dx.doi.org/10.1142/s1793292008000848.

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An idea for simultaneously manipulating spin and charge in a single semiconductor medium has resulted in the development of diluted magnetic semiconductors (DMSs), which exhibits surprisingly room temperature ferromagnetic signatures despite having controversial ferromagnetic origin. However, achievement of truly room temperature ferromagnetism by carrier mediation is still the subject of intense research to develop the practical spin-based devices. Nanowires with one-dimensional nanostructure, which offers thermodynamically stable features and typically single crystalline and defect free, hav
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Samarth, N., and J. K. Furdyna. "Diluted Magnetic Semiconductors." MRS Bulletin 13, no. 6 (1988): 32–36. http://dx.doi.org/10.1557/s0883769400065477.

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Diluted magnetic semiconductors (DMS) are semiconducting alloys whose lattice is partly made of substitutional magnetic ions. The most extensively studied materials of this type are the alloys, in which a fraction of the group II sublattice is replaced at random by Mn. The entire family of ternary alloys, along with their crystal structure and corresponding ranges of composition, is listed in Table I. Over the past decade, these alloys have attracted a growing scientific interest because of new fundamental effects in semiconductor physics and magnetism in these materials and because of their p
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MIURA, N., Y. H. MATSUDA, and T. IKAIDA. "MEGAGAUSS CYCLOTRON RESONANCE IN SEMICONDUCTOR NANOSTRUCTURES AND DILUTED MAGNETIC SEMICONDUCTORS." International Journal of Modern Physics B 16, no. 20n22 (2002): 3399–404. http://dx.doi.org/10.1142/s0217979202014565.

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We report the latest results of cyclotron resonance experiments on semiconductor nanostructures and diluted magnetic semiconductors (DMS) in very high magnetic fields up to 600 T produced by magnetic flux compression and the single turn coiled technique. Many new features were observed in the very high field range, such as characteristic behavior of low dimensional electrons, carrier dynamics or electron-electron interaction effects in quantum wells and quantum dot samples. In PbSe/PdEuTe quantum dots, which were regularly arranged to form an fcc superlattice, we observed an absorption peak wi
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KIM, H. J., and K. S. YI. "MAGNETIZATION OF DIGITALLY Mn-DOPED DILUTED MAGNETIC SEMICONDUCTOR QUANTUM WELLS." International Journal of Modern Physics B 18, no. 27n29 (2004): 3757–60. http://dx.doi.org/10.1142/s0217979204027414.

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We present spin-resolved electronic properties of digitally Mn -doped diluted magnetic semiconductor (DMS) quantum wells (QWs) with an emphasis on the control of spontaneous magnetization and spin carrier distributions in terms of QW structure parameters and doping profiles of the magnetic ions. A combined Schrödinger and Poisson equation is solved numerically to obtain self-consistent subband wavefunctions and energies of the holes in the DMS QWs. Self-consistent spin-resolved subband structure shows that (i) the spatial distributions of the majority and minority spin carriers are separated i
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SOUMA, SATOFUMI, SEUNG JOO LEE, and TAE WON KANG. "NUMERICAL STUDY OF FERROMAGNETISM IN DILUTED MAGNETIC SEMICONDUCTOR QUANTUM-WELLS." International Journal of Modern Physics B 19, no. 19 (2005): 3151–60. http://dx.doi.org/10.1142/s0217979205031973.

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We study the ferromagnetism in III-V diluted magnetic semiconductor (DMS) quantum-wells theoretically and numerically taking into account the occupation of multiple subbands by holes in quantum wells. Starting from the mean-field theory of carrier-induced ferromagnetism in III-V DMS along with the exchange-correlation interaction of holes within the local spin density approximation, we found that the ferromagnetic transition temperature Tc of DMS quantum-wells exhibits step-function-like dependence on the hole density, reflecting the quasi-two-dimensional nature of systems. Moreover, the tempe
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Ionescu, M., P. Photongkam, R. Siegele, A. Deslantes, S. Li, and D. D. Cohen. "Fabrication and Characterisation of Diluted Magnetic Semiconductors Thin Films Using Ion Beams." Materials Science Forum 706-709 (January 2012): 2869–73. http://dx.doi.org/10.4028/www.scientific.net/msf.706-709.2869.

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The intrinsic n-type (II-VI) semiconductor ZnO may become ferromagnetic at room temperature, by small additions of magnetic ions, resulting in what is called a Diluted Magnetic Semiconductors (DMS). The potential application of DMS in spintronic devices of is driving the research effort to dope magnetic elements into this semiconductors with a depth distribution as uniform as possible. The doping levels and the depth distribution of dopants are critical parameters for the magnetic properties of this material and the possible clustering of dopants can play a significant negative role in its mac
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Kamran, Muhammad Arshad, Bingsuo Zou, Kang Zhang, et al. "Dual-Color Lasing Lines from EMPs in Diluted Magnetic Semiconductor CdS:NiI Structure." Research 2019 (October 29, 2019): 1–15. http://dx.doi.org/10.34133/2019/6956937.

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Have one ever seen a semiconductor that can issue two-color lasing lines? The diluted magnetic semiconductor (DMS) can do this. Here, we have observed dual lasing lines of 530 nm and 789 nm from a DMS structure of CdS:NiI, in which the excitonic magnetic polaron (EMP) and localized excitonic magnetic polaron (LEMP) are excitations out of ferromagnetic (NiS)x nanocluster and NiI2 nanoclusters within CdS lattice; both of them could lead to the collective EMP state at high excitation and therein produce coherent emission lines simultaneously. This occurrence is due to the superposition of EMP nea
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KIM, NAMMEE, T. W. KANG, and HEESANG KIM. "CONTROLLABLE SPIN POLARIZATION IN A DMS QUANTUM DOT." Modern Physics Letters B 19, no. 27 (2005): 1419–27. http://dx.doi.org/10.1142/s0217984905009353.

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The effects of electro-magnetic confining potentials and the s–d exchange interaction between substituted Mn ions and carriers on the spin polarization of carriers in an diluted magnetic semiconductor quantum dot are investigated within the framework of the effective-mass theory. The energy eigenvalues and wavefunctions of a single electron in the presence of an external magnetic field are studied by solving the one particle Schrödinger equation including the conventional Zeeman effect, the s–d exchange interaction and the electric confining potential which describes the dot. The eigenenergy s
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Gama, Lucianna, M. A. Ribeiro, Débora A. Vieira, et al. "Synthesis Methods Evaluation for Preparation of the Zno:Co Diluted Magnetic Semiconductor (DMS)." Materials Science Forum 591-593 (August 2008): 387–91. http://dx.doi.org/10.4028/www.scientific.net/msf.591-593.387.

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Diluted magnetic semiconductors (DMS), which have both semiconducting and magnetic properties, are those in which transitions metal ions substitute cations of host semiconductor materials [1]. There is a great interest for DMS for use as the material of spintronics. In this study is reported the structural and morphologic characterization of Zn1.95Co0.05O nanoparticles obtained by Pechini method and combustion reaction. The powders resulting were characterized by X-ray diffraction (XRD) for determination of the phases, crystalline phase and lattice parameter; nitrogen adsorption by BET for det
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GNANASEKAR, K., and K. NAVANEETHAKRISHNAN. "ELECTRICALLY TUNABLE "RENORMALIZATION" OF s–d EXCHANGE INTERACTION IN A DILUTED MAGNETIC SEMICONDUCTOR QUANTUM DOT." International Journal of Nanoscience 06, no. 01 (2007): 71–76. http://dx.doi.org/10.1142/s0219581x07004961.

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We theoretically demonstrate that how the Rashba spin–orbit interaction induced by the external electric field can be used to manipulate spin degree of freedom of electrons in a diluted magnetic semiconductor quantum dot (DMS QD) in the presence of a weak perpendicular magnetic field. The effects of Rashba spin–orbit interaction, induced by the electrostatic potential, on the apparent total spin splitting in a diluted magnetic semiconductor quantum dot have been studied. We propose that the apparent total spin splitting is the result of electrically tunable "renormalization" of s–d exchange in
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Dissertations / Theses on the topic "Diluted magnetic semiconductor (DMS)"

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Dagnelund, Daniel. "Magneto-optical studies of dilute nitrides and II-VI diluted magnetic semiconductor quantum structures." Doctoral thesis, Linköpings universitet, Funktionella elektroniska material, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-54695.

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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 un
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Jeong, Byoung-Seong. "Growth and ferromagnetic semiconducting properties of titanium dioxide thin films an oxide-diluted magnetic semiconductor (o-dms) for spintronics /." [Gainesville, Fla.] : University of Florida, 2004. http://purl.fcla.edu/fcla/etd/UFE0004240.

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Staneva, Maya. "Theoretical study of dilute magnetic semiconductors : Properties of (Ga,Mn)As." Thesis, Uppsala universitet, Institutionen för fysik och astronomi, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-126096.

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The dilute magnetic semiconductor (Ga,Mn)As , which is the most interesting and promising material for spintronics applications, has been theoretically studied by using Density Functional Theory. First of all, calculations on GaAs were done and it was found that GaAs is a semiconductor with a direct band gap. The calculated value of the band gap is ~ 0.5eV. Secondly, the material iron was considered and it was confirmed that iron is a ferromagnetic metal with 2.2µB net magnetic moment. Then a magnetic impurity of manganese, Mn was introduced in the nonmagnetic GaAs and it became ferromagnetic
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Theodoropoulou, Nikoleta. "Experimental studies of spin dependent phenomena in Giant Magnetoresistance (GMR) and Dilute Magnetic Semiconductor (DMS) systems." [Gainesville, Fla.] : University of Florida, 2002. http://purl.fcla.edu/fcla/etd/UFE0000615.

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Tanaka, Hiroki. "Zeeman Splitting Caused by Localized sp-d Exchange Interaction in Ferromagnetic GaMnAs Observed by Magneto-Optical Characterization." Ohio University / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1441982108.

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Bovo, Laura. "Nanostructured Materials Based on ZnO for Cataltytic, Optical and Magnetic Applications." Doctoral thesis, Università degli studi di Padova, 2011. http://hdl.handle.net/11577/3423214.

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ZnO based materials, such as Zn1-xTMxO (TM = Mn, Co, Cu) nanopowders, were synthesised by a Sol gel route to investigate their properties in three fields: catalysis, optics and magnetism. These materials were characterised by complementary techniques such as X-ray Diffraction (XRD), Scanning Electron Microscopy (SEM), X-ray Photoelectron Spectroscopy (XPS) and UV-Vis Spectroscopy. The fine structure and electronic properties of these nanomaterials were studied by X-ray Absorption Spectroscopy (XAS) and Electron Paramagnetic Resonance (EPR). These techniques give site, element and chemical spec
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Khazen, Khashayar. "Ferromagnetic resonance investigation of GaMnAs nanometric layers." Paris 6, 2008. https://tel.archives-ouvertes.fr/tel-00329331v2.

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Cette thèse est dédiée à l’étude des propriétés magnétiques des couches nanométriques de GaMnAs par Résonance ferromagnétique (RFM). Trois séries des échantillons sont étudiées afin d' élucider l’influence des contraintes, la concentration des trous et la concentration de manganèse, sur les propriétés magnétiques de GaMnAs. Dans la première série, les échantillons de Ga1-xMnxAs avec x=0. 07 déposés sur les substrats de GaAs (en compression) et GaInAs (en extension) sont étudiés. Les résultats des mesures de l’aimantation, la résistivité et l’effet de Hall sont présentés. Les axes faciles de l’
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Kneip, Martin K. "Magnetization dynamics in diluted magnetic semiconductor heterostructures." kostenfrei, 2008. http://hdl.handle.net/2003/25822.

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Ankiewicz, Amélia Olga Gonçalves. "Properties of self-assembled diluted magnetic semiconductor nanostructures." Doctoral thesis, Universidade de Aveiro, 2010. http://hdl.handle.net/10773/2681.

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Doutoramento em Engenharia Física<br>Este trabalho centra-se na investigação da possibilidade de se conseguir um semicondutor magnético diluído (SMD) baseado em ZnO. Foi levado a cabo um estudo detalhado das propriedades magnéticas e estruturais de estruturas de ZnO, nomeadamente nanofios (NFs), nanocristais (NCs) e filmes finos, dopadas com metais de transição (MTs). Foram usadas várias técnicas experimentais para caracterizar estas estruturas, designadamente difracção de raios-X, microscopia electrónica de varrimento, ressonância magnética, SQUID, e medidas de transporte. Foram incorporados
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Norberg, Nicholas S. "Magnetic nanocrystals : synthesis and properties of diluted magnetic semiconductor quantum dots /." Thesis, Connect to this title online; UW restricted, 2006. http://hdl.handle.net/1773/8625.

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Books on the topic "Diluted magnetic semiconductor (DMS)"

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Strutz, Thomas. High magnetic field electron spin-lattice relaxation in a diluted magnetic semiconductor: CdMnTe. Hartung-Gorre Verlag, 1991.

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The physics of dilute magnetic alloys. Cambridge University Press, 2012.

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Dantas, Noelio Oliveira. Diluted Magnetic Semiconductor Nanocrystals in Glass Matrix. INTECH Open Access Publisher, 2010.

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Book chapters on the topic "Diluted magnetic semiconductor (DMS)"

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Gaj, Jan A., and Jacek Kossut. "Basic Consequences of sp–d and d–d Interactions in DMS." In Introduction to the Physics of Diluted Magnetic Semiconductors. Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-15856-8_1.

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Voos, Michel. "Semimagnetic Semiconductor Superlattices." In Semimagnetic Semiconductors and Diluted Magnetic Semiconductors. Springer US, 1991. http://dx.doi.org/10.1007/978-1-4615-3776-2_10.

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Béjar, Manuel, David Sánchez, Gloria Platero, and A. H. Macdonald. "Spin Transport in Diluted Magnetic Semiconductor Superlattices." In Recent Trends in Theory of Physical Phenomena in High Magnetic Fields. Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-010-0221-9_14.

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Chang, L. L., D. D. Awschalom, M. R. Freeman, and L. Vina. "Optical and Magnetic Properties of Diluted Magnetic Semiconductor Heterostructures." In Condensed Systems of Low Dimensionality. Springer US, 1991. http://dx.doi.org/10.1007/978-1-4684-1348-9_13.

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Kavokin, Kirill. "Coherent Spin Dynamics in Diluted-Magnetic Quantum Wells." In Optical Properties of Semiconductor Nanostructures. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4158-1_27.

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Ramdas, A. K. "Magneto-optic Phenomena in Diluted Magnetic Semiconductors." In High Magnetic Fields in Semiconductor Physics II. Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-642-83810-1_71.

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Furdyna, J. K., S. Lee, M. Dobrowolska, T. Wojtowicz, and X. Liu. "Band-Offset Engineering in Magnetic/Non-Magnetic Semiconductor Quantum Structures." In Introduction to the Physics of Diluted Magnetic Semiconductors. Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-15856-8_4.

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Kutrowski, M., T. Wojtowicz, S. Kret, et al. "Magnetooptical Properties of Graded Quantum Well Structures Made of Diluted Magnetic Semiconductors." In Optical Properties of Semiconductor Nanostructures. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4158-1_25.

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Homonnay, Z., K. Nomura, E. Kuzmann, A. Vértes, Y. Hirose, and T. Hasegawa. "57Co-emission Mössbauer study on diluted magnetic semiconductor TiO2 films." In ICAME 2007. Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-78697-9_63.

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Murayama, A., and Y. Oka. "Optical Properties and Spin Dynamics of Diluted Magnetic Semiconductor Nanostructures." In Optical Properties of Condensed Matter and Applications. John Wiley & Sons, Ltd, 2006. http://dx.doi.org/10.1002/0470021942.ch16.

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Conference papers on the topic "Diluted magnetic semiconductor (DMS)"

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Nolte, D. D., R. S. Rana, Eunsoon Oh, K. Chua, I. Miotkowski, and A. K. Ramdas. "Magneto-Photorefractive Effects in a Diluted Magnetic Semiconductor." In Photorefractive Materials, Effects, and Devices II. Optica Publishing Group, 1993. http://dx.doi.org/10.1364/pmed.1993.fre.3.

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Magneto-electro-optic effects introduce a new dimension to electro- optic and photorefractive pnenomena. Diluted magnetic semiconductors (DMS), such as CdMnTe, have pronounced magneto-optic effects that can be tailored by controlling the fraction of the magnetic ion. II-VI semiconductors, such as CdTe, have already been shown to have good linear electro-optic and photorefractive properties.
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Grubin, H. L. "Diluted magnetic semiconductor superlattices." In Defense and Security Symposium, edited by Dwight L. Woolard, R. Jennifer Hwu, Mark J. Rosker, and James O. Jensen. SPIE, 2006. http://dx.doi.org/10.1117/12.665364.

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Barmawi, M. "Spin injection using Diluted Magnetic Semiconductor." In 2009 International Conference on Instrumentation, Communications, Information Technology, and Biomedical Engineering (ICICI-BME). IEEE, 2009. http://dx.doi.org/10.1109/icici-bme.2009.5417237.

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Li, M. K., S. J. Lee, S. U. Yuldashev, et al. "Phase Transition of Diluted Magnetic Semiconductor." In PHYSICS OF SEMICONDUCTORS: 30th International Conference on the Physics of Semiconductors. AIP, 2011. http://dx.doi.org/10.1063/1.3666578.

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Rani, Anita, Kulwinder Kaur, and Ranjan Kumar. "Cd0.9375Mn0.0625S diluted magnetic semiconductor: A DFT study." In ADVANCED MATERIALS AND RADIATION PHYSICS (AMRP-2015): 4th National Conference on Advanced Materials and Radiation Physics. AIP Publishing LLC, 2015. http://dx.doi.org/10.1063/1.4929249.

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Grubin, H. L., and Dwight L. Woolard. "Multilayered diluted magnetic semiconductor structures and 2DEG." In Optics East 2005, edited by James O. Jensen and Jean-Marc Thériault. SPIE, 2005. http://dx.doi.org/10.1117/12.633578.

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Zou, Jin, Yong Wang, Faxian Xiu, Zuoming Zhao, and Kang L. Wang. "Structural characteristics of GeMn diluted magnetic semiconductor nanostructures." In 2012 Conference on Optoelectronic and Microelectronic Materials & Devices (COMMAD). IEEE, 2012. http://dx.doi.org/10.1109/commad.2012.6472336.

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Oka, Yasuo, Kazumasa Takabayashi, Nobuhiro Takahashi, Eiji Shirado, Jinxi Shen, and Izuru Souma. "Magneto-optical properties of diluted magnetic semiconductor nanostructures." In 4th International Conference on Thin Film Physics and Applications, edited by Junhao Chu, Pulin Liu, and Yong Chang. SPIE, 2000. http://dx.doi.org/10.1117/12.408299.

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Pruthi, Navneet K., and Anita Rani. "Ab-initio study of diluted magnetic semiconductor Cd0.9375Mn0.0625Se." In DAE SOLID STATE PHYSICS SYMPOSIUM 2018. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5113297.

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Funaki, N., Y. Uda, S. Matsumoto, et al. "Magnetic moment in Diluted Magnetic Semiconductor GaGdAs measured by Magnetic Circular Dichroism." In 2013 International Conference on Solid State Devices and Materials. The Japan Society of Applied Physics, 2013. http://dx.doi.org/10.7567/ssdm.2013.ps-12-12.

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Reports on the topic "Diluted magnetic semiconductor (DMS)"

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Zhang, Weidong, and Dwight Woolard. Magneto-Transpots in Interband Resonant Tunneling Diodes (I-RTDs) and Dilute Magnetic Semiconductor (DMS) I-RTDs. Defense Technical Information Center, 2011. http://dx.doi.org/10.21236/ada577381.

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Grubin, Harold L. Diluted-Magenetic Semiconductor (DMS) Tunneling Devices for the Terahertz Regime. Defense Technical Information Center, 2014. http://dx.doi.org/10.21236/ada623816.

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