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Artículos de revistas sobre el tema "Velocity map imaging (VMI)"

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Publicado: 4 de junio de 2021
Última modificación: 17 de febrero de 2022

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1

Zhang, Jiangle, Shanjun Chen, Yihuang Jiang, et al. "The photoelectron-imaging spectroscopic study and chemical bonding analysis of VO2−, NbO2− and TaO2−." RSC Advances 10, no. 68 (2020): 41612–17. http://dx.doi.org/10.1039/d0ra07583c.

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The transition-metal di-oxides, namely VO<sub>2</sub><sup>−</sup>, NbO<sub>2</sub><sup>−</sup> and TaO<sub>2</sub><sup>−</sup> have been studied using photoelectron velocity map imaging (PE-VMI) in combination with theoretical calculations.
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2

Waters, Max D. J., Anders B. Skov, Martin A. B. Larsen, Christian M. Clausen, Peter M. Weber, and Theis I. Sølling. "Symmetry controlled excited state dynamics." Physical Chemistry Chemical Physics 21, no. 5 (2019): 2283–94. http://dx.doi.org/10.1039/c8cp05950k.

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Symmetry effects in internal conversion are studied by means of two isomeric cyclic tertiary aliphatic amines in a velocity map imaging (VMI) experiment on the femtosecond timescale. We conclude that lessening the symmetry of the molecule leads to loss of coherence after internal conversion between Rydberg states.
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3

Xu, Ya-Wei, Li Shen, and Chang-Jian Dai. "The study of Eu 4f76p6d autoionizing states with RIS and VMI techniques." Modern Physics Letters B 32, no. 17 (2018): 1850190. http://dx.doi.org/10.1142/s0217984918501907.

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The spectra and dynamic properties of Eu [Formula: see text] autoionizing states are studied systematically with the resonance-ionization spectroscopy (RIS) and the velocity-map imaging (VMI) techniques. The RIS technique is utilized to obtain the spectra of Eu [Formula: see text] autoionizing states with the three-step excitation, while the VMI technique is used to detect the dynamic process of autoionization, from which the branching ratio (BR) of ions and the angular distribution (AD) of ejected electrons from Eu [Formula: see text] autoionizing states are achieved. Not only the energy leve
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4

Makhov, Dmitry V., Todd J. Martinez, and Dmitrii V. Shalashilin. "Toward fully quantum modelling of ultrafast photodissociation imaging experiments. Treating tunnelling in the ab initio multiple cloning approach." Faraday Discussions 194 (2016): 81–94. http://dx.doi.org/10.1039/c6fd00073h.

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We present an account of our recent effort to improve simulation of the photodissociation of small heteroaromatic molecules using the Ab Initio Multiple Cloning (AIMC) algorithm. The ultimate goal is to create a quantitative and converged technique for fully quantum simulations which treats both electrons and nuclei on a fully quantum level. We calculate and analyse the total kinetic energy release (TKER) spectra and Velocity Map Images (VMI), and compare the results directly with experimental measurements. In this work, we perform new extensive calculations using an improved AIMC algorithm th
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5

Leskiw, Brian D., Myung Hwa Kim, Gregory E. Hall, and Arthur G. Suits. "Reflectron velocity map ion imaging." Review of Scientific Instruments 76, no. 10 (2005): 104101. http://dx.doi.org/10.1063/1.2075167.

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6

Kim, Myung Hwa, Brian D. Leskiw, Lei Shen, and Arthur G. Suits. "Velocity map imaging mass spectrometry." International Journal of Mass Spectrometry 252, no. 1 (2006): 73–78. http://dx.doi.org/10.1016/j.ijms.2006.01.030.

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7

Wester, Roland. "Velocity map imaging of ion–molecule reactions." Phys. Chem. Chem. Phys. 16, no. 2 (2014): 396–405. http://dx.doi.org/10.1039/c3cp53405g.

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8

Horke, Daniel A., Gareth M. Roberts, Julien Lecointre, and Jan R. R. Verlet. "Velocity-map imaging at low extraction fields." Review of Scientific Instruments 83, no. 6 (2012): 063101. http://dx.doi.org/10.1063/1.4724311.

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9

Vallance, Claire. "‘Molecular photography’: velocity–map imaging of chemical events." Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 362, no. 1825 (2004): 2591–609. http://dx.doi.org/10.1098/rsta.2004.1460.

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10

Roeterdink, W. G., and M. H. M. Janssen. "Velocity map imaging of femtosecond photodynamics in CF3I." Chemical Physics Letters 345, no. 1-2 (2001): 72–80. http://dx.doi.org/10.1016/s0009-2614(01)00865-x.

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11

Laws, B. A., S. J. Cavanagh, B. R. Lewis, and S. T. Gibson. "NOO Peroxy Isomer Exposed with Velocity-Map Imaging." Journal of Physical Chemistry Letters 8, no. 18 (2017): 4397–401. http://dx.doi.org/10.1021/acs.jpclett.7b02183.

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12

Baguenard, B., J. B. Wills, F. Pagliarulo, et al. "Velocity-map imaging electron spectrometer with time resolution." Review of Scientific Instruments 75, no. 2 (2004): 324–28. http://dx.doi.org/10.1063/1.1642749.

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13

Zhao, Arthur, Péter Sándor, and Thomas Weinacht. "Coincidence velocity map imaging using a single detector." Journal of Chemical Physics 147, no. 1 (2017): 013922. http://dx.doi.org/10.1063/1.4981917.

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14

Weger, Matthias, Jochen Maurer, André Ludwig, Lukas Gallmann, and Ursula Keller. "Transferring the attoclock technique to velocity map imaging." Optics Express 21, no. 19 (2013): 21981. http://dx.doi.org/10.1364/oe.21.021981.

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15

Maner, J. A., D. T. Mauney, and M. A. Duncan. "Velocity map ion imaging study of Ar2+ photodissociation." Chemical Physics Letters 671 (March 2017): 182–85. http://dx.doi.org/10.1016/j.cplett.2017.01.042.

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16

Nandi, D., V. S. Prabhudesai, and E. Krishnakumar. "Velocity map imaging for low-energy electron–molecule collisions." Radiation Physics and Chemistry 75, no. 12 (2006): 2151–58. http://dx.doi.org/10.1016/j.radphyschem.2006.02.016.

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17

Wu, Xia, Zheng-bo Qin, Hua Xie, Xiao-hu Wu, Ran Cong, and Zi-chao Tang. "Collinear Velocity-map Photoelectron Imaging Spectrometer for Cluster Anions." Chinese Journal of Chemical Physics 23, no. 4 (2010): 373–80. http://dx.doi.org/10.1088/1674-0068/23/04/373-380.

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18

Lee, Suk Kyoung, Yun Fei Lin, Steven Lingenfelter, Lin Fan, Alexander H. Winney, and Wen Li. "Communication: Time- and space-sliced velocity map electron imaging." Journal of Chemical Physics 141, no. 22 (2014): 221101. http://dx.doi.org/10.1063/1.4903744.

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19

Zhang, Yongwei, Chung-Hsin Yang, Shiou-Min Wu, et al. "A large aperture magnification lens for velocity map imaging." Review of Scientific Instruments 82, no. 1 (2011): 013301. http://dx.doi.org/10.1063/1.3505491.

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20

Cavanagh, S. J., S. T. Gibson, and B. R. Lewis. "Approaching the O−photodetachment threshold with velocity-map imaging." Journal of Physics: Conference Series 194, no. 2 (2009): 022026. http://dx.doi.org/10.1088/1742-6596/194/2/022026.

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21

Roeterdink, Wim G., and Maurice H. M. Janssen. "Femtosecond velocity map imaging of concerted photodynamics in CF2I2." Journal of Chemical Physics 117, no. 14 (2002): 6500–6510. http://dx.doi.org/10.1063/1.1505026.

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22

Gademann, Georg, Ymkje Huismans, Arjan Gijsbertsen, Julia Jungmann, Jan Visschers, and Marc J. J. Vrakking. "Velocity map imaging using an in-vacuum pixel detector." Review of Scientific Instruments 80, no. 10 (2009): 103105. http://dx.doi.org/10.1063/1.3246811.

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23

Koehler, Sven P. K., Yuanyuan Ji, Daniel J. Auerbach, and Alec M. Wodtke. "Three-dimensional velocity map imaging of KBr surface photochemistry." Physical Chemistry Chemical Physics 11, no. 35 (2009): 7540. http://dx.doi.org/10.1039/b909579a.

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24

Cruse, H. A., and T. P. Softley. "Velocity-map imaging study of the photodissociation of acetaldehyde." Journal of Chemical Physics 122, no. 12 (2005): 124303. http://dx.doi.org/10.1063/1.1861886.

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25

Reid, Mike, and Sven P. K. Koehler. "Validation of velocity map imaging conditions over larger areas." Review of Scientific Instruments 84, no. 4 (2013): 044101. http://dx.doi.org/10.1063/1.4798646.

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26

Weichman, Marissa L., and Daniel M. Neumark. "Slow Photoelectron Velocity-Map Imaging of Cryogenically Cooled Anions." Annual Review of Physical Chemistry 69, no. 1 (2018): 101–24. http://dx.doi.org/10.1146/annurev-physchem-050317-020808.

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27

Li, S., E. G. Champenois, R. Coffee, et al. "A co-axial velocity map imaging spectrometer for electrons." AIP Advances 8, no. 11 (2018): 115308. http://dx.doi.org/10.1063/1.5046192.

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28

Delmdahl, Ralph F., Bernard L. G. Bakker, and David H. Parker. "Crossed-beam velocity map imaging of collisional autoionization processes." Journal of Chemical Physics 113, no. 18 (2000): 7728–30. http://dx.doi.org/10.1063/1.1321771.

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29

Harrison, G. R., J. C. Vaughan, B. Hidle, and G. M. Laurent. "DAVIS: a direct algorithm for velocity-map imaging system." Journal of Physics: Conference Series 1412 (January 2020): 242005. http://dx.doi.org/10.1088/1742-6596/1412/24/242005.

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30

Harrison, G. R., J. C. Vaughan, B. Hidle, and G. M. Laurent. "DAVIS: A direct algorithm for velocity-map imaging system." Journal of Chemical Physics 148, no. 19 (2018): 194101. http://dx.doi.org/10.1063/1.5025057.

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31

Brouard, M., E. K. Campbell, A. J. Johnsen, C. Vallance, W. H. Yuen, and A. Nomerotski. "Velocity map imaging in time of flight mass spectrometry." Review of Scientific Instruments 79, no. 12 (2008): 123115. http://dx.doi.org/10.1063/1.3036978.

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32

Yacovitch, Tara I., Etienne Garand, and Daniel M. Neumark. "Slow Photoelectron Velocity-Map Imaging of thei-Methylvinoxide Anion†." Journal of Physical Chemistry A 114, no. 42 (2010): 11091–99. http://dx.doi.org/10.1021/jp101930b.

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33

Hua, Zefeng, Shaowen Feng, Zhengfang Zhou, Hao Liang, Yang Chen, and Dongfeng Zhao. "A cryogenic cylindrical ion trap velocity map imaging spectrometer." Review of Scientific Instruments 90, no. 1 (2019): 013101. http://dx.doi.org/10.1063/1.5079264.

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34

Yin, CHEN, ZHANG Chang-Hua, CAO Zhen-Zhou, and ZHANG Bing. "UV Photodissociation Dynamics of C6H11Br by Velocity Map Ion Imaging." Acta Physico-Chimica Sinica 24, no. 05 (2008): 844–48. http://dx.doi.org/10.3866/pku.whxb20080519.

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35

Li, Wen, Lionel Poisson, Darcy S. Peterka, Musahid Ahmed, Robert R. Lucchese, and Arthur G. Suits. "Dissociative photoionization dynamics in ethane studied by velocity map imaging." Chemical Physics Letters 374, no. 3-4 (2003): 334–40. http://dx.doi.org/10.1016/s0009-2614(03)00712-7.

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36

Zhou, Dan-na, Rui Mao, Li-min Zhang, Qun Zhang, and Yang Chen. "Photodissociation of 2-Bromobutane by Ion-velocity Map Imaging Technique." Chinese Journal of Chemical Physics 24, no. 6 (2011): 647–52. http://dx.doi.org/10.1088/1674-0068/24/06/647-652.

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37

Wells, Kym L., Gareth Perriam, and Vasilios G. Stavros. "Time-resolved velocity map ion imaging study of NH3 photodissociation." Journal of Chemical Physics 130, no. 7 (2009): 074308. http://dx.doi.org/10.1063/1.3072763.

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38

Roscioli, J. R., D. J. Bell, D. J. Nelson, and D. J. Nesbitt. "State-resolved velocity map imaging of surface-scattered molecular flux." Phys. Chem. Chem. Phys. 14, no. 12 (2012): 4070–80. http://dx.doi.org/10.1039/c1cp22938a.

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39

Bull, James N., Jason W. L. Lee, Sara H. Gardiner, and Claire Vallance. "Account: An Introduction to Velocity-Map Imaging Mass Spectrometry (VMImMS)." European Journal of Mass Spectrometry 20, no. 2 (2014): 117–29. http://dx.doi.org/10.1255/ejms.1264.

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40

Nandi, Dhananjay, Vaibhav S. Prabhudesai, B. M. Nestmann, and E. Krishnakumar. "Dissociative electron attachment to NO probed by velocity map imaging." Phys. Chem. Chem. Phys. 13, no. 4 (2011): 1542–51. http://dx.doi.org/10.1039/c0cp01067g.

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41

DeVine, Jessalyn A., Marissa L. Weichman, Mark C. Babin, and Daniel M. Neumark. "Slow photoelectron velocity-map imaging of cold tert-butyl peroxide." Journal of Chemical Physics 147, no. 1 (2017): 013915. http://dx.doi.org/10.1063/1.4979951.

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42

Babin, Mark C., Jessalyn A. DeVine, Marissa L. Weichman, and Daniel M. Neumark. "Slow photoelectron velocity-map imaging of cold C7− and C9−." Journal of Chemical Physics 149, no. 17 (2018): 174306. http://dx.doi.org/10.1063/1.5054792.

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43

Sage, Alan G., Thomas A. A. Oliver, Richard N. Dixon, and Michael N. R. Ashfold. "Velocity map imaging studies of the photodissociation of H2O+cations." Molecular Physics 108, no. 7-9 (2010): 945–55. http://dx.doi.org/10.1080/00268971003596177.

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44

Ryazanov, Mikhail, and Hanna Reisler. "Improved sliced velocity map imaging apparatus optimized for H photofragments." Journal of Chemical Physics 138, no. 14 (2013): 144201. http://dx.doi.org/10.1063/1.4798929.

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45

Barillot, T., R. Brédy, G. Celep, et al. "Influence of long-range Coulomb interaction in velocity map imaging." Journal of Chemical Physics 147, no. 1 (2017): 013929. http://dx.doi.org/10.1063/1.4982616.

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46

Zhang, Zhi-guo, Zhi-chao Chen, Cui-mei Zhang, et al. "Ion-Velocity Map Imaging Study of Photodissociation Dynamics of Acetaldehyde." Chinese Journal of Chemical Physics 27, no. 3 (2014): 249–55. http://dx.doi.org/10.1063/1674-0068/27/03/249-255.

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47

Kostko, O., B. Xu, M. I. Jacobs, and M. Ahmed. "Soft X-ray spectroscopy of nanoparticles by velocity map imaging." Journal of Chemical Physics 147, no. 1 (2017): 013931. http://dx.doi.org/10.1063/1.4982822.

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48

Harding, Dan J., Jannis Neugebohren, Hinrich Hahn, D. J. Auerbach, T. N. Kitsopoulos, and Alec M. Wodtke. "Ion and velocity map imaging for surface dynamics and kinetics." Journal of Chemical Physics 147, no. 1 (2017): 013939. http://dx.doi.org/10.1063/1.4983307.

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49

Greaves, Stuart J., Rebecca A. Rose, and Andrew J. Orr-Ewing. "Velocity map imaging of the dynamics of bimolecular chemical reactions." Physical Chemistry Chemical Physics 12, no. 32 (2010): 9129. http://dx.doi.org/10.1039/c001233e.

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50

Zhu, Rongshu, Bifeng Tang, Xiu Zhang, and Bing Zhang. "Photodissociation Dynamics of 2-Bromopropane Using Velocity Map Imaging Technique." Journal of Physical Chemistry A 114, no. 21 (2010): 6188–93. http://dx.doi.org/10.1021/jp101260d.

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