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Artículos de revistas sobre el tema "Energy selective"

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Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 19 de febrero de 2022

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1

Moon, Kwanyoung, Kyoung Min Kim, Yunmin Kim y Tae-Jin Lee. "Device-Selective Energy Request in RF Energy-Harvesting Networks". IEEE Communications Letters 25, n.º 5 (mayo de 2021): 1716–19. http://dx.doi.org/10.1109/lcomm.2021.3053761.

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2

Yang Cheng, 杨成, 刘培国 Liu Peiguo, 刘继斌 Liu Jibin, 周东明 Zhou Dongming y 李高升 Li Gaosheng. "Transient response of energy selective surface". High Power Laser and Particle Beams 25, n.º 4 (2013): 1045–49. http://dx.doi.org/10.3788/hplpb20132504.1045.

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3

He, Yu-Hang, Ai-Xin Zhang, Wen-Kai Yu, Li-Ming Chen y Ling-An Wu. "Energy-Selective X-Ray Ghost Imaging*". Chinese Physics Letters 37, n.º 4 (abril de 2020): 044208. http://dx.doi.org/10.1088/0256-307x/37/4/044208.

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4

Zhou, Lin y Zhongxiang Shen. "3-D Absorptive Energy-Selective Structures". IEEE Transactions on Antennas and Propagation 69, n.º 9 (septiembre de 2021): 5664–72. http://dx.doi.org/10.1109/tap.2021.3061097.

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5

González-Hidalgo, José Carlos, María Teresa Echeverría y Ramón V. Vallejo. "Selective transport of sediment related to rainfall kinetic energy, plant cover-stoniness and clearing". Zeitschrift für Geomorphologie 43, n.º 2 (9 de julio de 1999): 255–66. http://dx.doi.org/10.1127/zfg/43/1999/255.

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6

Alvarez, Robert E. "Active energy selective image detector for dual-energy computed radiography". Medical Physics 23, n.º 10 (octubre de 1996): 1739–48. http://dx.doi.org/10.1118/1.597831.

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7

Ozel, Tuncay, Pedro Ludwig Hernandez-Martinez, Evren Mutlugun, Onur Akin, Sedat Nizamoglu, Ilkem Ozge Ozel, Qing Zhang, Qihua Xiong y Hilmi Volkan Demir. "Observation of Selective Plasmon-Exciton Coupling in Nonradiative Energy Transfer: Donor-Selective versus Acceptor-Selective Plexcitons". Nano Letters 13, n.º 7 (19 de junio de 2013): 3065–72. http://dx.doi.org/10.1021/nl4009106.

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8

Cavanagh, J. B. "Selective vulnerability in acute energy deprivation syndromes". Neuropathology and Applied Neurobiology 19, n.º 6 (diciembre de 1993): 461–70. http://dx.doi.org/10.1111/j.1365-2990.1993.tb00474.x.

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9

Lehmann, E. H., G. Frei, P. Vontobel, L. Josic, N. Kardjilov, A. Hilger, W. Kockelmann y A. Steuwer. "The energy-selective option in neutron imaging". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 603, n.º 3 (mayo de 2009): 429–38. http://dx.doi.org/10.1016/j.nima.2009.02.034.

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10

Chen, K. R. "Selective gyrobroadening of alpha particle energy spectrum". Physics Letters A 247, n.º 4-5 (octubre de 1998): 319–24. http://dx.doi.org/10.1016/s0375-9601(98)00632-x.

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11

Gottesman, S., S. Wickner, Y. Yubete, S. K. Singh, M. Kessel y M. Maurizi. "Selective, Energy-dependent Proteolysis in Escherichia coli". Cold Spring Harbor Symposia on Quantitative Biology 60 (1 de enero de 1995): 533–48. http://dx.doi.org/10.1101/sqb.1995.060.01.057.

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12

Dumé, Isabelle. "X-ray ghost imaging goes energy-selective". Physics World 33, n.º 8 (agosto de 2020): 6. http://dx.doi.org/10.1088/2058-7058/33/8/6.

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13

Josic, Lidija, A. Steuwer y E. Lehmann. "Energy selective neutron radiography in material research". Applied Physics A 99, n.º 3 (20 de marzo de 2010): 515–22. http://dx.doi.org/10.1007/s00339-010-5602-7.

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14

Kaczkan, M., D. A. Pawlak, S. Turczynski y M. Malinowski. "Site-selective energy upconversion in Pr3+: Y4Al2O9". Journal of Alloys and Compounds 728 (diciembre de 2017): 1009–15. http://dx.doi.org/10.1016/j.jallcom.2017.09.069.

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15

Wu, Zhaofeng, Mingtuan Lin, Jihong Zhang y Jibin Liu. "Energy Selective Filter with Power-Dependent Transmission Effectiveness in Waveguide". Electronics 8, n.º 2 (20 de febrero de 2019): 236. http://dx.doi.org/10.3390/electronics8020236.

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A novel Energy Selective Filter (ESF) mounted in waveguide is presented based on nonlinear element, which is sensitive to the power intensity of incident wave achieving frequency selection as well as energy selection. The proposed ESF consists of three parts, the middle circuit board with diode loaded, the upper and bottom ground metallic patches. The mechanism of the ESF is analyzed through equivalent circuit model and its performance is investigated numerically and experimentally. According to the waveguide measurement, a shielding effectiveness of 13 dB is achieved in case of high power input and the insertions loss is less than 0.3 dB across the whole frequency range when low power signal inputs. It is a pluggable component in waveguide that could reflect high power signals of specific frequency to protect the following electronic equipment.
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16

Kakhandki, Arun L., Shivaraj Hublikar y Priyatamkumar. "Energy efficient selective hop selection optimization to maximize lifetime of wireless sensor network". Alexandria Engineering Journal 57, n.º 2 (junio de 2018): 711–18. http://dx.doi.org/10.1016/j.aej.2017.01.041.

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17

Tang, Min, Yang Fu, Ming-shui Fu, Ying Fan, Hai-dong Zou, Xiao-dong Sun y Xun Xu. "The Efficacy of Low-Energy Selective Laser Trabeculoplasty". Ophthalmic Surgery, Lasers, and Imaging 42, n.º 1 (1 de diciembre de 2010): 59–63. http://dx.doi.org/10.3928/15428877-20101124-07.

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18

Khouri, AlbertS, Larissa Habib, James Lin, Tamara Berezina, Bart Holland y RobertD Fechtner. "Selective laser trabeculoplasty: Does energy dosage predict response?" Oman Journal of Ophthalmology 6, n.º 2 (2013): 92. http://dx.doi.org/10.4103/0974-620x.116635.

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19

He Ji-Zhou y He Bing-Xiang. "Energy selective electron heat pump with transmission probability". Acta Physica Sinica 59, n.º 4 (2010): 2345. http://dx.doi.org/10.7498/aps.59.2345.

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20

Kardjilov, Nikolay, Burkhard Schillinger y Erich Steichele. "Energy-selective neutron radiography and tomography at FRM". Applied Radiation and Isotopes 61, n.º 4 (octubre de 2004): 455–60. http://dx.doi.org/10.1016/j.apradiso.2004.03.070.

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21

Conibeer, G. J., C. W. Jiang, D. König, S. Shrestha, T. Walsh y M. A. Green. "Selective energy contacts for hot carrier solar cells". Thin Solid Films 516, n.º 20 (agosto de 2008): 6968–73. http://dx.doi.org/10.1016/j.tsf.2007.12.031.

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22

Doraswami, Anand. "A selective guide to sources of energy news". Energy for Sustainable Development 2, n.º 4 (noviembre de 1995): 6–8. http://dx.doi.org/10.1016/s0973-0826(08)60144-1.

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23

Bossart, R., O. V. Boyarkin, A. A. Makarov y T. R. Rizzo. "Isotopically selective collisional vibrational energy transfer in CF3H". Journal of Chemical Physics 126, n.º 5 (7 de febrero de 2007): 054302. http://dx.doi.org/10.1063/1.2433946.

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24

Chang, Chih-Chang y Ruey-Jen Yang. "Electrokinetic energy conversion efficiency in ion-selective nanopores". Applied Physics Letters 99, n.º 8 (22 de agosto de 2011): 083102. http://dx.doi.org/10.1063/1.3625921.

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25

Shrestha, Santosh K., Pasquale Aliberti y Gavin J. Conibeer. "Energy selective contacts for hot carrier solar cells". Solar Energy Materials and Solar Cells 94, n.º 9 (septiembre de 2010): 1546–50. http://dx.doi.org/10.1016/j.solmat.2009.11.029.

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26

Sukhorukov, Yu P., B. A. Gizhevskii, E. V. Mostovshchikova, A. Ye Yermakov, S. N. Tugushev y E. A. Kozlov. "Nanocrystalline copper oxide for selective solar energy absorbers". Technical Physics Letters 32, n.º 2 (febrero de 2006): 132–35. http://dx.doi.org/10.1134/s1063785006020131.

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27

Miao, Guowang, Nageen Himayat y Geoffrey Li. "Energy-efficient link adaptation in frequency-selective channels". IEEE Transactions on Communications 58, n.º 2 (febrero de 2010): 545–54. http://dx.doi.org/10.1109/tcomm.2010.02.080587.

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28

Erkmen, Faruk, Thamer S. Almoneef y Omar M. Ramahi. "Scalable Electromagnetic Energy Harvesting Using Frequency-Selective Surfaces". IEEE Transactions on Microwave Theory and Techniques 66, n.º 5 (mayo de 2018): 2433–41. http://dx.doi.org/10.1109/tmtt.2018.2804956.

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29

Potter, Tamara I., Hayley J. Stannard, Aaron C. Greenville y Christopher R. Dickman. "Understanding selective predation: Are energy and nutrients important?" PLOS ONE 13, n.º 8 (8 de agosto de 2018): e0201300. http://dx.doi.org/10.1371/journal.pone.0201300.

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30

Bullock, S. Ray, B. R. Reddy, P. Venkateswarlu y S. K. Nash-Stevenson. "Site-selective energy upconversion in CaF_2:Ho^3+". Journal of the Optical Society of America B 14, n.º 3 (1 de marzo de 1997): 553. http://dx.doi.org/10.1364/josab.14.000553.

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31

Takeuchi, T., M. Tsuji, K. Makita y K. Taguchi. "InAIGaAs selective MOVPE growth with bandgap energy shift". Journal of Electronic Materials 25, n.º 3 (marzo de 1996): 375–78. http://dx.doi.org/10.1007/bf02666605.

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32

Vanderkooi, Jane M., Andras Kaposi y Judit Fidy. "Protein conformation monitored by energy-selective optical spectroscopy". Trends in Biochemical Sciences 18, n.º 3 (marzo de 1993): 71–76. http://dx.doi.org/10.1016/0968-0004(93)90155-g.

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33

Kunç, S. "Rough metallic selective surfaces for solar energy applications". Solar & Wind Technology 3, n.º 2 (enero de 1986): 147–51. http://dx.doi.org/10.1016/0741-983x(86)90027-5.

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34

Miranda, M. T., R. García-Mateos, J. I. Arranz, F. J. Sepúlveda, P. Romero y A. Botet-Jiménez. "Selective Use of Corn Crop Residues: Energy Viability". Applied Sciences 11, n.º 7 (6 de abril de 2021): 3284. http://dx.doi.org/10.3390/app11073284.

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The corn crop is one of the most important crops worldwide. However, the management of the residues generated is not efficient enough, which diminishes the competitiveness of this crop. An interesting option for the valorization of these wastes is their thermal use. In order to make the management of this residue as much efficient as possible, it is vital to know the different processes related to a corn harvest, and try to adapt the use of this waste depending on its characteristics. Thus, in this work, and on the basis of a conventional corn harvest, a differentiated analysis of the residue generated was carried out, including its characterization and assessing its behavior during pyrolysis and combustion. The results pointed out the importance of collecting residue immediately after its generation and avoiding its contact with the soil as this factor tends to worsen its thermal properties and ash content. Concerning the selective collection, it is highly advisable if the subsequent thermal use is going to be a pyrolytic process. In the case of combustion, even though the samples that contain corn stalk showed better combustion properties, this improvement did not outweigh the adverse effects related to the increase in ash content, especially for its pelletizing.
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35

M. Damasceno, Sandra, Vanny Ferraz, David L. Nelson y José D. Fabris. "Selective adsorption of fatty acid methyl esters onto a commercial molecular sieve or activated charcoal prepared from the Acrocomia aculeata cake remaining from press-extracting the fruit kernel oil". AIMS Energy 6, n.º 5 (2018): 801–9. http://dx.doi.org/10.3934/energy.2018.5.801.

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36

Thomas, G. y R. Eckmann. "Reproduction vs. growth: indications for altered energy fl uxes in Lake Constance whitefish through size-selective fishery". Advances in Limnology 63 (2 de abril de 2012): 133–46. http://dx.doi.org/10.1127/advlim/63/2012/133.

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37

Tatsumi, Kazuyoshi, Shunsuke Muto y Ján Rusz. "Energy Loss by Channeled Electrons: A Quantitative Study on Transition Metal Oxides". Microscopy and Microanalysis 19, n.º 6 (29 de agosto de 2013): 1586–94. http://dx.doi.org/10.1017/s1431927613013214.

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AbstractElectron energy-loss spectroscopy (EELS) attached to current transmission electron microscopes can probe not only element-selective chemical information, but also site-selective information that depends on the position that a specific element occupies in a crystal lattice. The latter information is exploited by utilizing the Bloch waves symmetry in the crystal, which changes with its orientation with respect to the incident electron wave (electron channeling). We demonstrate the orientation dependence of the cross-section of the electron energy-loss near-edge structure for particular crystalline sites of spinel ferrites, by quantitatively taking into account the dynamical diffraction effects with a large number of the diffracted beams. The theoretical results are consistent with a set of experiments in which the transition metal sites in spinel crystal structures are selectively excited. A new measurement scheme for site-selective EELS using a two-dimensional position-sensitive detector is proposed and validated by theoretical predictions and trial experiments.
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38

Ferrada, P., R. Harney, E. Wefringhaus, U. Jaeger, A. Wolf, D. Biro, M. Weiss y J. Lossen. "Characterization of height-selective emitters". Energy Procedia 8 (2011): 220–25. http://dx.doi.org/10.1016/j.egypro.2011.06.127.

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39

Walker, Christopher G. "Arc-Flash Energy Reduction Techniques: Zone-Selective Interlocking and Energy-Reducing Maintenance Switching". IEEE Transactions on Industry Applications 49, n.º 2 (marzo de 2013): 814–24. http://dx.doi.org/10.1109/tia.2013.2244831.

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40

Khopunov, Eduard A. "Energy and power factors of selective destruction of ores". Izvestiya vysshikh uchebnykh zavedenii Gornyi zhurnal, n.º 1 (17 de febrero de 2020): 79–88. http://dx.doi.org/10.21440/0536-1028-2020-1-79-88.

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The aim of the work is to assess the factors that determine the effectiveness of devices used at different stages of ore processing. The nature of the destruction at each stage is determined by different parameters, therefore, it is so important to search for information factors that allow evaluating the response of mineral raw materials to external influences at the stages of ore preparation. The research methodology is based on the analysis of energy and power factors, which can be correlated both with the loading device and with the body being destroyed. Force factors characterize the response of a material to damaging effects, for example, the limiting amount of resistance to deformation is estimated by the force at which the destruction occurred. The results of the analysis of the role of energy and power factors are given on the example of a selfgrinding mill, a centrifugal crusher, and others. The effectiveness of the self-grinding mill is determined by the ratio of energy and power parameters in the processes of ore lumps kinetic energy conversion into the energy of elastic and breaking strains of the crushable (and crushing) material. It is shown that 88 "Izvestiya vysshikh uchebnykh zavedenii. Gornyi zhurnal". No. 1. 2020 ISSN 0536-1028 the efficiency of centrifugal crushers is ensured by the high intensity of collisions of a multitude of particles, which initially possess excess kinetic energy. In devices such as a roller-press or a cone inertial crusher, the final phase of destruction is associated with volumetric deformation of the layer. This means that the final stages of destruction are completely determined by the structural and strength characteristics of the feedstock and its particle size distribution. The field of application of the presented results are technologies in which the liberation of minerals during ore destruction is considered as a process of structure transformation based on the principles of rational ore preparation. The properties of ores, energy and force factors are important informational parameters of the analysis and selection of methods of destruction during the liberation of minerals. Examples of successful and unsuccessful use of a roller press as a device for reducing the energy consumption for ore preparation are explained within the framework of ideas about the relationship between energy and power factors.
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41

Mishra, Pragya, Torbjörn Ilar, Frank Brueckner y Alexander Kaplan. "Energy efficiency contributions and losses during selective laser melting". Journal of Laser Applications 30, n.º 3 (agosto de 2018): 032304. http://dx.doi.org/10.2351/1.5040603.

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42

Paul, Ratnadeep y Sam Anand. "Process energy analysis and optimization in selective laser sintering". Journal of Manufacturing Systems 31, n.º 4 (octubre de 2012): 429–37. http://dx.doi.org/10.1016/j.jmsy.2012.07.004.

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43

Wang, Lei, Debin Ji, Yuxue Liu, Qian Wang, Xueying Wang, Yongjin J. Zhou, Yixin Zhang, Wujun Liu y Zongbao K. Zhao. "Synthetic Cofactor-Linked Metabolic Circuits for Selective Energy Transfer". ACS Catalysis 7, n.º 3 (13 de febrero de 2017): 1977–83. http://dx.doi.org/10.1021/acscatal.6b03579.

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44

Kiyanagi, Yoshiaki. "Energy Selective Imaging by Using a Pulsed Neutron Source". Materia Japan 48, n.º 7 (2009): 366–68. http://dx.doi.org/10.2320/materia.48.366.

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45

Kockelmann, W., G. Frei, E. H. Lehmann, P. Vontobel y J. R. Santisteban. "Energy-selective neutron transmission imaging at a pulsed source". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 578, n.º 2 (agosto de 2007): 421–34. http://dx.doi.org/10.1016/j.nima.2007.05.207.

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46

Rodenburg, C., MAE Jepson y E. Bosch. "Advantages of Energy Selective Secondary Electron Detection in SEM". Microscopy and Microanalysis 16, S2 (julio de 2010): 622–23. http://dx.doi.org/10.1017/s1431927610053754.

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47

Mynick, H. E. y N. Pomohrey. "Frequency sweeping: a new technique for energy-selective transport". Nuclear Fusion 34, n.º 9 (septiembre de 1994): 1277–82. http://dx.doi.org/10.1088/0029-5515/34/9/i09.

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48

Balkan, Deniz, Joseph Sharkey, Dmitry Ponomarev y Kanad Ghose. "Selective Writeback: Reducing Register File Pressure and Energy Consumption". IEEE Transactions on Very Large Scale Integration (VLSI) Systems 16, n.º 6 (junio de 2008): 650–61. http://dx.doi.org/10.1109/tvlsi.2008.2000243.

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49

Su, Qianqian, Wei Feng, Dongpeng Yang y Fuyou Li. "Resonance Energy Transfer in Upconversion Nanoplatforms for Selective Biodetection". Accounts of Chemical Research 50, n.º 1 (16 de diciembre de 2016): 32–40. http://dx.doi.org/10.1021/acs.accounts.6b00382.

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50

Josic, L., E. Lehmann y A. Kaestner. "Energy selective neutron imaging in solid state materials science". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 651, n.º 1 (septiembre de 2011): 166–70. http://dx.doi.org/10.1016/j.nima.2010.12.120.

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