Imperial College London

DrMinasBacharis

Faculty of Natural SciencesDepartment of Physics

Academic Visitor
 
 
 
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Contact

 

minas.bacharis03

 
 
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Location

 

Blackett LaboratorySouth Kensington Campus

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Summary

 

Overview

  • Dusty Plasmas
  • Dust transport in Tokamaks
  • Plasma Surface Interactions 

List of Publications

show research

[1] J. D. Martin, M. Bacharis, M. Coppins, G. F. Counsell and J. E. Allen, Modelling dust transport in tokamaks, EPL, 83, 65001 (2008).

[2] M. Bacharis, M. Coppins and J.E Allen, Dust Grain Charging in RF Discharges, Plasma Sources Sci. Technol., 19, 025002 (2009).

[3] M. Bacharis, M. Coppins and J.E Allen , Dust in tokamaks: An overview of the physical model of the dust in tokamaks code, Physics of Plasmas, 17, 042505 (2010).

[4] M. Bacharis, M. Coppins and J.E Allen, Critical Issues of Dust in Tokamaks, Phys. Rev. E, 82, 026403 (2010).

[5] G. De Temmerman, M. Bacharis, J. Dowling and S. Lisgo, Dust creation and transport in MAST. Nucl. Fusion, 50, 105012 (2010).

[6] C.T.N. Willis, M. Coppins, M. Bacharis, and J.E. Allen. The effect of dust grain size on the floating potential of dust in a collisionless plasma, Plasma Sources Sci. Technol., 19, 065022 (2010).

[7] C. Marmolino, M. Bacharis, J. E. Allen, U. de Angelis, and C. Willis. Diffusion and stochastic heating of a dust cloud in tokamak edge plasmas, Phys. Plasmas, 18, 103706 (2011); doi: 10.1063/1.3647309

[8] C.T.N. Willis, J.E. Allen, M. Coppins, M. Bacharis, Wakes formed by dust grains in supersonically flowing plasmas, Phys. Rev. E, 84, 046410 (2011).

[9] C. T. N. Willis, M. Coppins, M. Bacharis, and J. E. Allen, Floating potential of large dust grains in a collisionless flowing plasma, Phys. Rev. E, 85, 036403 (2012).

[10] M Bacharis, M Coppins, W Fundamenski and J.E. Allen, Modelling of tungsten and beryllium dust in ITER, Plasma Phys. Control. Fusion, 54, 085010 (2012).

[11] N Rizopoulou, A P L Robinson, M Coppins and M Bacharis, A kinetic study of the source–collector sheath system in a drifting plasma, Plasma Sources Sci. Technol. 22, 035003 (2013).

[12] M. Bacharis, Floating potential of large dust grains with electron emission, Physics of Plasmas (1994-present), 21, 7, 074501 (2014).

[13] N Rizopoulou, A P L Robinson, M Coppins and M Bacharis, Electron Emission in a Source-Collector Sheath System: a kinetic study. (submitted to Physics of Plasmas)

[14] Flanagan, Joanne; Sertoli, Marco; Bacharis, Minas; Matthews, Guy; de Vries, Peter; Widdowson, Anna; Coffey, Ivor; Arnoux, Gilles; Sieglin, Bernhard; Brezinsek, Sebastijan; Coenen, Jan; Marsen, Stefan; Craciunescu, Teddy; Harting, Derek; Cackett, Alexandra; Hodille, Etienne; Characterising dust in JET with the new ITER-like wall. (Invited talk to EPS 2014, submitted to Plasma Physics and Controlled Fusion)

[15] M.Sertoli, J.C. Flanagan, M. Bacharis, O. Kardaun, A. Jarvinen, G.F. Matthews, S. Brezinsek, D. Harting, A. Cackett, E. Hodille, I.H. Coffey, E. Lazzaro, T. Putterich and JET-EFDA Contributors; Impact of W events and dust on JET-ILW operation ( Talk to PSI 2014 submitted to the Journal of Nuclear Materials)