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Achievements

S. Barral — patent inventorship

[4]
S. Barral and S. J. Zurbach, Hall effect plasma thruster, patent US20120117938 (A1), 2012 [link]
[3]
S. Barral and S. J. Zurbach, Hall effect plasma thruster, patent EP2433002 (A1), 2012 [link]
[2]
S. Barral and S. J. Zurbach, Propulseur à plasma à effet Hall, patent FR2945842 (B1), 2011
[1]
S. Barral and S. J. Zurbach, Hall effect plasma thruster, patent WO2010133802 (A1), 2010 [link]

S. Barral — publication authorship

[51]
J. Kurzyna, A. Szelecka, D. Daniłko, S. Barral, K. Dannenmayer, E. Bosch Borras and T. Schönherr, Testing KLIMT prototypes at IPPLM and ESA propulsion laboratories, in Proc. Space Propulsion 2016, Paper No. 3125256, Rome (Italy), 2016
[50]
S. Barral, J. Kurzyna, A. Szelecka and D. Daniłko, Pulsed plasma thruster with non-volatile propellant: the way forward, in Proc. Space Propulsion 2016, Paper No. 3125339, Rome (Italy), 2016
[49]
J. Miedzik, S. Barral and D. Daniłko, Influence of oblique magnetic field on electron cross-field transport in a Hall effect thruster, Phys. Plasmas 22, 043511, 2015 [link]
[48]
D. Daniłko and S. Barral, Contribution of phase-energy correlation to classical mobility across a strong magnetic field, Physica Scripta 90, 055601, 2015
[47]
D. Daniłko and S. Barral, Influence of phase-energy correlation on electron cross-field mobility in a Hall thruster, in Proc. 34th International Electric Propulsion Conference, Paper No. 2015-369, Kobe (Japan), 2015 [link to pdf]
[46]
S. Barral, J. Kurzyna, A. Szelecka, H. Rachubiński, D. Daniłko, R. Martin, E. Remírez, P. Ortiz, J. Alonso, Y. Mabillard, S. Bottinelli, A. Zaldívar, P. Rangsten and C. R. Koppel, Time-of-flight spectrometry and performance of a pulsed plasma thruster with non-volatile propellant, in Proc. 34th International Electric Propulsion Conference, Paper No. 2015-141, Kobe (Japan), 2015 [link to pdf]
[45]
S. Barral, G. Cifali, R. Albertoni, M. Andrenucci and L. Walpot, Conceptual design of an air-breathing electric propulsion system, in Proc. 34th International Electric Propulsion Conference, Paper No. 2015-271, Kobe (Japan), 2015 [link to pdf]
[44]
S. Barral, J. Kurzyna, H. Rachubiński, A. Szelecka, E. Remírez, R. Martin, P. Ortiz, J. Alonso, S. Bottinelli, Y. Mabillard, A. Zaldívar, P. Rangsten and C. R. Koppel, First experimental characterization of a pulsed plasma thruster with non-volatile liquid propellant, in Proc. Space Propulsion 2014, Paper No. 2980924, Cologne (Germany), 2014
[43]
J. Miedzik, S. Barral and S. Zurbach, Wall-induced cross-field electron transport with oblique magnetic field lines, in Proc. 33rd International Electric Propulsion Conference, Paper No. 2013-077, Washington, DC (USA), 2013 [link to pdf]
[42]
J. Kurzyna and S. Barral, Numerical investigation of the Krypton Large IMpulse Thruster (KLIMT), in Plasma 2013 - International Conference on Research and Application of Plasmas, Warsaw (Poland), 2013
[41]
M. Dudeck, Z. Peradzyński, K. Makowski, S. Barral, J. Kurzyna, A. Cenian and A. Kamińska, Electric engines for space propulsion, in Mathematics, Mechanics and Modeling, a tribute to Zbigniew Peradzyński, Będlewo (Poland), 2013
[40]
D. Daniłko, S. Barral and S. Zurbach, Quasineutral PIC electron guiding center modeling in the presence of slow cross-field electron transport in a Hall thruster, in Proc. 33rd International Electric Propulsion Conference, Paper No. 2013-286, Washington, DC (USA), 2013 [link to pdf]
[39]
M. Dabiri, A. Mestre, M. Dudeck, M. Guyot, S. Denise, M. Tessier, S. Barral and J. Kurzyna, Modélisation du plasma dans un propulseur à effet Hall pour petits satellites, in Modélisation: Atomes, Molécules, Plasmas et Systèmes Dynamiques, Bourges (France), 2013
[38]
M. Dabiri, M. Dudeck, M. Guyot, S. Barral and J. Kurzyna, Plasma properties inside a small Hall effect thruster, in Proc. 33rd International Electric Propulsion Conference, Paper No. 2013-415, Washington, DC (USA), 2013
[37]
S. Barral, J. Kaczmarczyk, J. Kurzyna and M. Dudeck, Active control and excitation of breathing oscillations in a Hall thruster with a fast digital signal processor, in Proc. 33rd International Electric Propulsion Conference, Paper No. 2013-339, Washington, DC (USA), 2013 [link to pdf]
[36]
S. Barral, J. Kurzyna, E. Remírez, R. Martin, P. Ortiz, J. Alonso, S. Bottinelli, Y. Mabillard, A. Zaldívar, P. Rangsten and C. R. Koppel, Development status of an open capillary pulsed plasma thruster with non-volatile liquid propellant, in Proc. 33rd International Electric Propulsion Conference, Paper No. 2013-291, Washington, DC (USA), 2013 [link to pdf]
[35]
S. Barral, J. Kaczmarczyk, J. Kurzyna and M. Dudeck, Closed-loop control of ionization oscillations in Hall acelerators, Phys. Plasmas 18, 083504, 2011 [link]
[34]
S. Barral and J. Miedzik, Numerical investigation of closed-loop control for Hall accelerators, J. Appl. Phys. 109, 013302, 2011 [link]
[33]
J. Miedzik, S. Barral and S. Zurbach, Study of plasma confinement by magnetic fields in Hall thrusters using quasi-neutral PIC modeling, in Proc. 32nd International Electric Propulsion Conference, Paper No. 2011-238, Wiesbaden (Germany), 2011 [link to pdf]
[32]
S. Barral, J. Kaczmarczyk, J. Kurzyna and M. Dudeck, Active control of a Hall thruster discharge, in Proc. 32nd International Electric Propulsion Conference, Paper No. 2011-193, Wiesbaden (Germany), 2011 [link to pdf]
[31]
S. Barral, S. Zurbach and M. Dudeck, Experimental investigation of a layered graphite/BN channel for Hall thrusters, in Proc. 32nd International Electric Propulsion Conference, Paper No. 2011-192, Wiesbaden (Germany), 2011 [link to pdf]
[30]
S. Barral and Z. Peradzyński, Ionization oscillations in Hall accelerators, Phys. Plasmas 17, 014505, 2010 [link]
[29]
S. Barral and E. Ahedo, Low-frequency model of breathing oscillations in Hall discharges, Phys. Rev. E 79, 046401, 2009 [link]
[28]
J. Miedzik and S. Barral, Electron guiding center modeling for Hall thruster simulations, in Proc. 31st International Electric Propulsion Conference, Paper No. 2009-069, Ann Arbor, MI (USA), 2009 [link to pdf]
[27]
S. Barral and Z. Peradzyński, A new breath for the breathing mode, in Proc. 31st International Electric Propulsion Conference, Paper No. 2009-070, Ann Arbor, MI (USA), 2009 [link to pdf]
[26]
Z. Peradzyński, K. Makowski, S. Barral, J. Kurzyna and M. Dudeck, The role of the electron energy balance in plasma thruster instabilities, in Proc. International Conference on Research and Applications of Plasma 2007, 435, Greifswald (Germany), 2008
[25]
S. Barral, J. Miedzik and E. Ahedo, A model for the active control of low frequency oscillations in Hall thrusters, in Proc. 44th AIAA Joint Propulsion Conference, Paper No. 2008-4632, Hartford, CT (USA), 2008
[24]
S. Barral and E. Ahedo, On the origin of low frequency oscillations in Hall thrusters, in Proc. International Conference on Research and Applications of Plasma 2007, 439, Greifswald (Germany), 2008
[23]
Z. Peradzyński, K. Makowski, S. Barral, J. Kurzyna and M. Dudeck, The role of the electron energy balance in Hall thruster plasma instabilities, in Proc. 30th International Electric Propulsion Conference, Paper No. 2007-258, Florence (Italy), 2007 [link to pdf]
[22]
S. Barral, Theoretical analysis of the influence of the power supply on breathing oscillations in Hall thrusters, in Proc. 30th International Electric Propulsion Conference, Paper No. 2007-261, Florence (Italy), 2007 [link to pdf]
[21]
K. Makowski, Z. Peradzyński, J. Kurzyna, S. Barral and M. Dudeck, High frequency oscillations in 2-D fluid model of Hall thruster, in Proc. International Conference on Research and Applications of Plasma 2005, 477, Opole (Poland), 2006
[20]
S. Barral and E. Ahedo, Theoretical study of the breathing mode in Hall thrusters, in Proc. 42nd AIAA Joint Propulsion Conference, Paper No. 2006-5172, Sacramento, CA (USA), 2006
[19]
S. Barral, K. Makowski, Z. Peradzyński and M. Dudeck, Transit-time instability in Hall thrusters, Phys. Plasmas 12, 073504, 2005 [link]
[18]
S. Barral, Y. Jayet, S. Mazouffre, M. Dudeck, E. Veron and P. Echegut, Hall effect thruster with an AlN discharge channel, in Proc. 29th International Electric Propulsion Conference, Paper No. 2005-152, Princeton, NJ (USA), 2005 [link to pdf]
[17]
S. Barral, V. Lapuerta, A. Sancho and E. Ahedo, Numerical investigation of low-frequency longitudinal oscillations in Hall thrusters, in Proc. 29th International Electric Propulsion Conference, Paper No. 2005-120, Princeton, NJ (USA), 2005 [link to pdf]
[16]
S. Barral, K. Makowski, Z. Peradzyński and M. Dudeck, Longitudinal oscillations in Hall thrusters, in Proc. 4th International Spacecraft Propulsion Conference, ESA SP-555, Paper No. 12.1, Cagliari (Italy), 2004
[15]
N. Gascon, M. Dudeck and S. Barral, Wall material effects in stationary plasma thrusters. I. Parametric studies of an SPT-100, Phys. Plasmas 10, 4123, 2003 [link]
[14]
S. Barral, K. Makowski, Z. Peradzyński, N. Gascon and M. Dudeck, Wall material effects in stationary plasma thrusters. II. Near-wall and in-wall conductivity, Phys. Plasmas 10, 4137, 2003 [link]
[13]
Z. Peradzyński, S. Barral, K. Makowski and M. Dudeck, Solutions with shocks for fluid model of stationary plasma thrusters, in Proc. 28th International Electric Propulsion Conference, Paper No. 2003-167, Toulouse (France), 2003 [link to pdf]
[12]
K. Makowski, Z. Peradzynski, S. Barral and M. Dudeck, Azimuthal plasma-beam instabilities in stationary plasma thrusters, in Proc. 28th International Electric Propulsion Conference, Paper No. 2003-166, Toulouse (France), 2003 [link to pdf]
[11]
S. Barral, K. Makowski, Z. Peradzyński and M. Dudeck, Is near-wall conductivity a misnomer?, in Proc. 39th AIAA Joint Propulsion Conference, Paper No. 2003-4855, Huntsville, AL (USA), 2003
[10]
S. Barral, Z. Peradzyński, K. Makowski and M. Dudeck, An alternative theory of transit-time oscillations in Hall thrusters, in Proc. 28th International Electric Propulsion Conference, Paper No. 2003-335, Toulouse (France), 2003 [link to pdf]
[9]
S. Barral, Numerical studies of Hall thrusters based on fluid equations for plasma, Institute of Fundamental Technological Research of Warsaw, 2003
[8]
S. Barral, K. Makowski, Z. Peradzyński and M. Dudeck, Model of stationary plasma thruster with conducting walls, in Proc. 38th AIAA Joint Propulsion Conference, Paper No. 2002-4245, Indianapolis, IN (USA), 2002
[7]
K. Makowski, Z. Peradzyński, S. Barral and M. Dudeck, Review of the plasma fluid models in stationary plasma thrusters, High. Temp. Mater. Processes 5, 277, 2001
[6]
S. Barral, Z. Peradzyński, K. Makowski and M. Dudeck, Fluid model of Hall thruster: comparison with a hybrid model, High. Temp. Mater. Processes 5, 253, 2001
[5]
S. Barral, Z. Peradzyński, K. Makowski and M. Dudeck, About the double-humped electron distribution function in Hall thrusters, in Proc. 27th International Electric Propulsion Conference, Paper No. 2001-25, Pasadena, CA (USA), 2001 [link to pdf]
[4]
S. Barral, N. Gascon, K. Makowski, Z. Peradzyński and M. Dudeck, Numerical study of the current-voltage characteristic of Hall thrusters, in Proc. 27th International Electric Propulsion Conference, Paper No. 2001-27, Pasadena, CA (USA), 2001 [link to pdf]
[3]
K. Makowski, S. Barral, Z. Peradzyński and M. Dudeck, Influence of the plasma-wall interactions on the operation of Hall thrusters, in Proc. 3rd International Conference on Spacecraft Propulsion, ESA SP-465, 377, Cannes (France), 2000
[2]
K. Makowski, Z. Peradzyński, S. Barral and M. Dudeck, Effect of approximate energy balance in a stationary plasma thruster, in Proc. 36th AIAA Joint Propulsion Conference, Paper No. 2000-3658, Huntsville, AL (USA), 2000
[1]
K. Makowski, Z. Peradzyński, S. Barral and M. Dudeck, A model for the characterization of plasma inside the stationary plasma thruster. Electron energy balance analysis, in Proc. 26th International Electric Propulsion Conference, Paper No. 99-242, Kitakyushu (Japan), 1999 [link to pdf]