Plasimo Publications

• Contributions to peer-reviewed journals
• Ph.D. Theses
• M.Sc. Theses

[1]

W. J. M. Brok, E. Wagenaars, J. van Dijk, and J. J. A. M. van der Mullen. Numerical description of pulsed breakdown between parabolic electrodes. IEEE Trans. on Plasma Science, Accepted for publication, 2007.
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[2]

Li Chao, W. J. M. Brok, U. Ebert, and J. J. A. M. van der Mullen. Evaluation of the local field approximation in negative streamer heads. J. Appl. Phys., 101(12):123305, 2007.
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[3]

W. J. M. Brok, M. F. Gendre, M. Haverlag, and J. J. A. M. van der Mullen. Numerical description of high frequency ignition of fluorescent tubes. J. Phys. D: Appl. Phys., 40(13):3931-3936, 2007.
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[4]

Tom Martens, Annemie Bogaerts, Wouter Brok, and Jan van Dijk. Computer simulations of a dielectric barrier discharge used for analytical spectrometry. Anal. Bioanal. Chem., Published online, 2007.
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[5]

W. J. M. Brok, M. F. Gendre, and J. J. A. M. van der Mullen. Model study of DC ignition of fluorescent tubes. J. Phys. D: Appl. Phys., 40(1):156-162, 2006.
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[6]

W. J. M. Brok, T. Nimalasuriya, A. Hartgers, M. L. Beks, M. Haverlag, W. W. Stoffels, and J. J. A. M. van der Mullen. Colour segregation in metal-halide lamps: experimental and numerical investigations. High Temp. Mat. Processes, 10(4):571-582, 2006.
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[7]

M. H. L. van der Velden, W. J. M. Brok, J. J. A. M van der Mullen, and V. Banine. Kinetic simulation of an extreme ultraviolet radiation driven plasma near a multilayer mirror. J. Appl. Phys., 100(7):073303, 2006.
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[8]

B. H. P. Broks, J. van Dijk, H. M. J. Bastiaens, K. J. Boller, and J. J. A. M. van der Mullen. Study of a pulsed capillary discharge waveguide with a modulated radius. J. Phys. D: Appl. Phys., 39:2384-2390, 2006.
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[9]

B. H. P. Broks, W. van Dijk, and J. J. A. M. van der Mullen. Parameter study of a pulsed capillary discharge waveguide. J. Phys. D: Appl. Phys., 39:2377-2383, 2006.
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[10]

B. H. P. Broks, J. Hendriks, W. J. M. Brok, G. J. H. Brussaard, and J. J. A. M. van der Mullen. Theoretical investigation of a photoconductively switched high-voltage spark gap. J. Appl. Phys., 99(12):0123302, 2006.
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[11]

M. H. L. van der Velden, W. J. M. Brok, J. J. A. M van der Mullen, W. J. Goedheer, and V. Banine. Particle-In-Cell Monte Carlo simulations of an extreme ultraviolet radiation driven plasma. Phys. Rev. E, 73(3):036406, 2006.
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[12]

Wouter Brok and Joost van der Mullen. Het ontsteken van gasontladingen. Nederlands Tijdschrift voor Natuurkunde, 72(4):134-138, 2006.
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[13]

E. Wagenaars, R. Brandenburg, W. J. M. Brok, M. D. Bowden, and H.-E. Wagner. Experimental and modelling investigation of a dielectric barrier discharge in low-pressure argon. J. Phys. D: Appl. Phys., 39(4):700-711, 2006.
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[14]

B. H. P. Broks, W. J. M. Brok, J. Remy, J. J. A. M. van der Mullen, A. Benidar, L. Biennier, and F. Salama. Modelling the influence of anode-cathode spacing in a pulsed discharge nozzle. Spectrochimica Acta Part B, 60(11):1442-1449, 2005.
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[15]

B. H. P. Broks, W. J. M. Brok, J. Remy, J. J. A. M. van der Mullen, A. Benidar, L. Biennier, and F. Salama. Numerical investigation of the discharge characteristics of the pulsed discharge nozzle. Phys. Rev. E, 71(3):036409, 2005.
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[16]

W. J. M. Brok, M. D. Bowden, J. van Dijk, J. J. A. M. van der Mullen, and G. M. W. Kroesen. Numerical description of discharge characteristics of the plasma needle. J. Appl. Phys., 98(1):013302, 2005.
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[17]

C.W. Johnston, H.W.P. van der Heijden, A. Hartgers, K. Garloff, J. van Dijk, and J.J.A .M. van der Mullen. An improved lte model of a high pressure sulfur discharge. J. Phys. D: Appl. Phys., 37:211-220, 2004.
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[18]

A. Hartgers, H. W. P. van der Heijden, M. L. Beks, J. van Dijk, and J. A. M. van der Mullen. An elemental diffusion description for LTE plasma models. J. Phys. D: Appl. Phys., 38(18):3422-3429, 2005.
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[19]

John W. A. M. Gielen, Simon de Groot, Jan van Dijk, and Joost J. A. M. van der Mullen. Axial mercury segregation in direct current operated low-pressure argon-mercury gas discharges: Part ii. model. J. Phys. D: Appl. Phys., 37:1925-1934, 2004.
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[20]

Jan van Dijk. Opereren met plasma buiten thermodynamisch evenwicht. Nederlands Tijdschrift voor Natuurkunde, 70(8):250-253, 2004.
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[21]

W. J. M. Brok, J. van Dijk, M. D. Bowden, J. J. A. M van der Mullen, and G. M. W.Kroesen. A model study of propagation of the first ionisation wave during breakdown in a straight tube containing argon. J. Phys. D: Appl. Phys., 36(16):1967-1979, 2003.
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[22]

C. W. Johnston and J. J. A. M. van der Mullen. A scaling rule for molecular electronic transition dipole moments: application to asymptotically allowed and forbidden transitions. J. Chem. Phys., 119(4):2056-2061, 2003.
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[23]

A. Hartgers, J. van Dijk, H.W.P. van der Heijden, and J.A.M. van der Mullen. The influence of de-maxwellization on a fluorescent lamp simulation. J. Phys. D: Appl. Phys., 36:2269-2275, 2003.
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[24]

A. Hartgers, G. M. Janssen, and J. J. A. M. van der Mullen. Implementation of a friction-based self-consistent multicomponent diffusion model in plasimo. J. Phys. D: Appl. Phys., 36(2):114-121, 2003.
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[25]

Kurt Garloff, Michiel van den Donker, Joost van der Mullen, Fred van Goor, Ralph Brummans, and Jeroen Jonkers. Simple model for laser-produced, mass-limited water-droplet plasmas. Phys. Rev. E, 66:036403, 2002.
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[26]

Jan van Dijk, Marc van der Velden, and Joost van der Mullen. A multi-domain boundary-relaxation technique for the calculation of the electromagnetic field in ferrite-core inductive plasmas. J. Phys. D: Appl. Phys., 35(21):2748-2759, 2002.
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[27]

C. W. Johnston, J. Jonkers, and J. J. A. M. van der Mullen. Operational trends in the temperature of a high-pressure microwave powered sulfur lamp. J. Phys. D: Appl. Phys., 35(20):2578-2585, 2002.
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[28]

Harm van der Heijden and Joost van der Mullen. General treatment of the interplay between fluid and radiative transport phenomena in symmetric plasmas: the sulphur lamp as a case study. J. Phys. D: Appl. Phys., 35(17):2112-2125, 2002.
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[29]

Harm van der Heijden, Johannes Baier, Achim Körber, and Joost van der Mullen. Radiative transfer of a molecular S₂ B-X spectrum using semiclassical and quantum-mechanical radiation coefficients. J. Phys. B: At. Mol. Opt. Phys., 35:3633-3654, 2002.
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[30]

A. Bogaerts, E. Neyts, R. Gijbels, and J. van der Mullen. Gas discharge plasmas and their applications. Spectrochimica Acta, 57B Review:609-658, 2002.
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[31]

C. W. Johnston, H. W. P. van der Heijden, G. M. Janssen, J. van Dijk, and J. J. A. M. van der Mullen. A self-consistent LTE model of a microwave-driven, high-pressure sulfur lamp. J. Phys. D: Appl. Phys., 35(4):342-351, 2002.
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[32]

Harm van der Heijden and Joost van der Mullen. Semiclassical and quantum-mechanical descriptions of S₂ molecular radiation. J. Phys. B: At. Mol. Opt. Phys., 34:4183-4201, 2001.
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[33]

A. Hartgers and J. A. M. van der Mullen. Modelling an ar-hg fluorescent lamp plasma using a 3 electron-temperature approximation. J. Phys. D: Appl. Phys., 34(12):1907-1913, 2001.
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[34]

Jan van Dijk, Bart Hartgers, Jeroen Jonkers, and Joost van der Mullen. Collisional radiative models with multiple transport-sensitive levels - application to high electron density mercury discharges. J. Phys. D: Appl. Phys., 34(10):1499-1509, 2001.
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[35]

G. J. M. Hagelaar, M. H. Klein, R. J. M. M. Snijkers, and G. M. W. Kroesen. Energy loss mechanisms in the microdischarges in plasma display panels. J. Appl. Phys., 89(4):2033-2039, 2001.
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[36]

A. Hartgers, J. van Dijk, J. Jonkers, and J. A. M. van der Mullen. CRModel: A general collisional radiative modeling code. Comp. Phys. Comm., 135(2):199-218, 2001.
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[37]

M. H. Klein, R. J. M. M. Snijkers, and G. J. M. Hagelaar. Energy loss mechanisms in AC-PDP discharges. IEEE Trans. on Plasma Science, E83-C(10):1602-1607, 2000.
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[38]

G. J. M. Hagelaar, M. H. Klein, R. J. M. M. Snijkers, and G. M. W. Kroesen. Resonance radiation transport in plasma display panels. J. Appl. Phys., 88(10):5538-5542, 2000.
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[39]

G. J. M. Hagelaar and G. M. W. Kroesen. A monte carlo modelling study of the electrons in the microdischarges in plasma addressed liquid crystal displays. Plasma Sources Sci. Technol., 9(4):605-614, 2000.
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[40]

G. J. M. Hagelaar, G. M. W. Kroesen, U. van Slooten, and H. Schreuders. Modeling of the microdischarges in plasma addressed liquid crystal displays. J. Appl. Phys., 88(5):2252-2262, 2000.
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[41]

G. J. M. Hagelaar, G. M. W. Kroesen, and M. H. Klein. Energy distribution of ions and fast neutrals in microdischarges for display technology. J. Appl. Phys., 88(5):2240-2245, 2000.
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[42]

G. J. M. Hagelaar, F. J. de Hoog, and G. M. W. Kroesen. Boundary conditions in fluid models of gas discharges. Phys. Rev. E, 62(1):1452-1454, 2000.
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[43]

G. J. M. Hagelaar and G. M. W. Kroesen. Speeding up fluid models for gas discharges by implicit treatment of the electron energy source term. J. Comp. Phys., 159:1-12, 2000.
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[44]

Jan van Dijk, Bart Hartgers, Jeroen Jonkers, and Joost van der Mullen. A collisional radiative model for mercury in high-current discharges. J. Phys. D: Appl. Phys., 33(21):2798-2806, 2000.
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[45]

G. M. Janssen, J. van Dijk, D. A. Benoy, M. A. Tas, K. T. A. L. Burm, W. J. Goedheer, J. J. A. M. van der Mullen, and D. C. Schram. PLASIMO, a general model: I. applied to an argon cascaded arc plasma. Plasma Sources Sci. Technol., 8(1):1-14, 1999.
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[46]

K. T. A. L. Burm, W. J. Goedheer, J. J. A. M. van der Mullen, G. M. Janssen, and D. C. Schram. Ionization efficiency in a geometrically pinched cascaded arc. Plasma Sources Sci. Technol., 7(3):395-409, 1998.
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[47]

Joost van der Mullen and Jeroen Jonkers. Fundamental comparison between non-equilibrium aspects of icp and mip discharges. Spectrochimica Acta, 54B Review:1017-1044, 1999.
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[48]

J. A. M. van der Mullen. Excitation equilibria in plasmas; a classification. Physics Reports, 2&3(191):109-220, 1990.
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[49]

J. A. M. van der Mullen, D. A. Benoy, F. H. A. G. Fey, and B. van der Sijde. Saha equation for two-temperature plasmas: Theories, experimental evidence and interpretation. Phys. Rev., E50:3925-3934, 1994.
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[1]

B. H. P. Broks. Multi-fluid modeling of transient plasmas. PhD thesis, Eindhoven University of Technology, The Netherlands, 2006. [ bib ]

[2]

W. J. M. Brok. Modelling of Transient Phenomena in Gas Discharges. PhD thesis, Eindhoven University of Technology, The Netherlands, 2005. ISBN 90-386-2291-0. [ bib ]

[3]

A. Hartgers. Modelling of a Fluorescent Lamp Plasma. PhD thesis, Eindhoven University of Technology, The Netherlands, 2003. [ bib | .pdf ]

[4]

C. W. Johnston. Transport and Equilibrium in Molecular Plasmas: the sulfur lamp. PhD thesis, Eindhoven University of Technology, The Netherlands, 2003. [ bib | .pdf ]

[5]

H. W. P. van der Heijden. Modelling of Radiative Transfer in Light Sources. PhD thesis, Eindhoven University of Technology, The Netherlands, 2003. [ bib | .pdf ]

[6]

J. van Dijk. Modelling of Plasma Light Sources - an object-oriented approach. PhD thesis, Eindhoven University of Technology, The Netherlands, 2001. [ bib | .pdf ]

[7]

G. M. Janssen. Design of a General Plasma Simulation Model, Fundamental Aspects and Applications. PhD thesis, Eindhoven University of Technology, The Netherlands, 2000. [ bib | .pdf ]

[8]

G. J. M. Hagelaar. Modeling of Microdischarges for Display Technology. PhD thesis, Eindhoven University of Technology, The Netherlands, 2000. [ bib | .pdf ]

[9]

D. A. Benoy. Modelling of Thermal Argon Plasmas. PhD thesis, Eindhoven University of Technology, The Netherlands, 1993. [ bib | .pdf ]

[10]

J. J. A. M. van der Mullen. Excitation Equilibria in Plasmas - a classification. PhD thesis, Eindhoven University of Technology, The Netherlands, 1986. [ bib | .pdf ]

This file has been generated by bibtex2html 1.85.

[1]

M. L. Beks. Towards a hybrid fluid-monte carlo model for pulsed hollow cathode discharges. Master's thesis, Eindhoven University of Technology, The Netherlands, December 2003. [ bib | .pdf ]

[2]

B. H. P. Broks. Extending the capabilities of a plasma simulation model: A case study of a hollow catode discharge. Master's thesis, Eindhoven University of Technology, The Netherlands, August 2002. [ bib | .pdf ]

[3]

W. J. M. Brok. Modelling of the phase resolved electrical behaviour of high intensity discharge lamps. Master's thesis, Eindhoven University of Technology, The Netherlands, 2001. [ bib ]

This file has been generated by bibtex2html 1.85.