Success stories of Palestinian achievers from all over the world

Rami Moustafa Ali

Personal Info

  • Country of residence: Jordan
  • Gender: Male
  • Born in: 1964
  • Age: 57
  • Curriculum vitae :

Information


CURRICULUM VITAE
Professor Rami Moustafa Ali
ADDRESS
Department of Physics
The University of Jordan
Amman 11942, JORDAN
Phone: (+962) 79 5306720
E-mail: ramimali@ju.edu.jo
PERSONAL INFORMATION
Date of Birth: 27/4/1964
Nationality: Jordanian
Marital status: Married with two sons
EDUCATION
• B.S., Physics, Yarmouk University, Jordan, 1986.
• Ph.D., Physics, Kansas State University, USA, 1993.
Dissertation: Dielectronic Recombination on and Electron-Impact Excitation of He-Like Ions and Multi-Electron Processes in Slow Collisions of Highly Charged Ions with Atoms.
Dissertation Advisor: Professor C. Lewis Cocke.
RESEARCH AREA
• Laboratory Astrophysics: applications of atomic and molecular physics in astrophysics.
PROFESSIONAL MEMBERSHIPS
• American Astronomical Society.
- Laboratory Astrophysics Division (LAD).
• American Physical Society.
- Division of Astrophysics (DAP).
- Division of Atomic, Molecular & Optical Physics (DAMOP).
ADMINISTRATIVE APPOINTMENTS
• Director, International Affairs Unit, The University of Jordan, Amman, Jordan, 2008-2018.
ACADEMIC APPOINTMENTS
• Visiting Professor of Physics, American University of Sharjah, UAE, August 2018-2020.
• Professor of Physics (Tenured), The University of Jordan, Amman, Jordan, 2016-present.
• Associate Professor of Physics, The University of Jordan, Amman, Jordan, 2005-2016.
• Associate Professor of Physics, The Hashemite University, Zarqa, Jordan, 2002-2005.
• Associate Professor of Physics (Tenured), University of Nevada, Reno, USA, 2000-2002.
• Assistant Professor of Physics, University of Nevada, Reno, USA, 1995-2000.
• Postdoctoral Appointee, Argonne National Laboratory, USA, 1993-95.
• Research Assistant, Kansas State University, USA, 1989-93.
• Teaching Assistant and Laboratory Coordinator, Kansas State University, USA, 1988-89.
• Laboratory Supervisor, The University of Jordan, Jordan, 1987-88.
• Teaching Assistant, Yarmouk University, Jordan, 1986-87.

RESEARCH PROFILE
Research Interests:
Laboratory Astrophysics: applications of atomic and molecular physics in astrophysics.
Citation Report:
Database
Citations
h-Index
Web of Science
981
19
Scopus
983
20
Google Scholar
1353
20
Areas of Laboratory Astrophysics Research Expertise:
• Electro-ion collisions: excitation, ionization, radiative and dielectronic recombination.
• Multi-electron processes in low- and high-energy collisions of multiply charged ions with atoms and molecules: charge exchange (electron capture), electron loss, ionization, radiative and Auger decays.
• Atomic structure of few-electron highly charged ions: relativistic effects, correlation effects, forbidden transitions.
• Ultrafast intense laser interactions: formation of astrophysically relevant molecular cations.
Experimental Techniques Employed:
• Cold Target Recoil ion momentum spectroscopy (COLTRIMS).
• Auger electron spectroscopy.
• X-ray spectroscopy.
• EUV and VUV spectroscopy.
• Beam-foil spectroscopy.
• Rutherford backscattering spectroscopy.
• Time-of-flight coincidence techniques.
• Position imaging techniques.
• Multi-parameter event-mode data acquisition and control.
• Vacuum techniques.
Ionizing Radiation Sources Utilized:
• Electron-beam ion sources (EBIS).
• Electron cyclotron resonance ion sources (ECRIS).
• One-stage Van de Graaff accelerators.
• Two-stage (Tandem) Van de Graaff accelerators.
• Linear accelerators (LINAC).
• Intense femtosecond lasers.

SPECIALIZED TRAINING
• U.S. Department of Energy Core Radiological Training (Radiation Worker I), Argonne National Laboratory, USA, 1993.
SUPERVISED RESEARCH
Ph.D. Dissertations:
2. Hanan M. Sa’adaeh (co-supervisor), “Correlation of Backscattered and Recoil Ions in Violent Ion-Atom Collisions by Coincident Rutherford Backscattering Spectrometry,’’ The University of Jordan, Amman, Jordan, January 2010.
1. Ahmad A. Hasan, “Target Outer-Shell Excitation in Multiple-Electron Capture Collisions of Slow Highly-Charged Ions with Many-Electron Atoms,’’ University of Nevada, Reno, USA, December 2000.
M.S. Theses:
10. Derar H. Mallah, “Experimental Studies of the Energy Dependence of State-Selective Non-
dissociative Single Electron Capture in He2+ on H2 Collisions Using Cold Target Recoil Ion Momentum Spectroscopy,” The University of Jordan, Amman, Jordan, August 2016.
9. Fatin D. Dwaib, “Charge Transfer Studies in Intermediate Energy Collisions of Multiply Charged Oxygen Ions with Helium Atoms,’’ The University of Jordan, Amman, Jordan, July 2009.
8. Hossam Y. Eed, “Impact Energy Dependence Study of the Kinetic Energy Release from the Fragmentation of CO2+ in He2+ with Carbon Monoxide Collisions,’’ The University of Jordan, Amman, Jordan, December 2008.
7. Rawan H. Al-Qudah, “Studies of State-Selective Nondissociative Single Electron Capture in Intermediate Energy Collisions of He2+ with Molecular Hydrogen,’’ The University of Jordan, Amman, Jordan, December 2008.
6. Naeem O. Balasmeh, “Studies of Single and Double Electron Capture in He2+ on Ne Collisions Using Cold Target Recoil Ion Momentum Spectroscopy,’’ The University of Jordan, Amman, Jordan, May 2008.
5. Rajaie Y. Qasem, “Cold Target Recoil Ion Momentum Spectroscopy Studies of Single and Multiple Projectile Electron Loss in O+ on He Collisions,’’ The University of Jordan, Amman, Jordan, May 2008.
4. Ayman A. Al-Khateeb (co-supervisor), “Simulation and Operation of the Recoil Ion Spectrometer of the COLTRIMS Apparatus at the University of Jordan,’’ The Hashemite University, Zarqa, Jordan, December 2007.
3. Zainab J. Al-Asfar (co-supervisor), “Thermoluminescence TL-Response and Characterization of Thin Film Systems Deposited onto Si Substrates,’’ The University of Jordan, Amman, Jordan, January 2007.
2. Farhat. Eissa, “State-Selective Charge Transfer Studies Relevant to Solar Wind-Comet Interactions,’’ University of Nevada, Reno, USA, August 2002.
1. Haci M. Cakmak, “In Search of Target Excitation in Low Energy Ion-Atom Collisions,’’ University of Nevada, Reno, USA, November 1996.

Undergraduate Senior Theses:
2. Erik D. Emmons, “Ion-Atom Collisions Studied by Simultaneous Auger-Electron and Recoil-Ion Momentum Spectroscopy,’’ University of Nevada, Reno, USA, May 2000.
1. Timur Y. Osipov, “Implementation of Kmax: A Versatile Data Acquisition and Control System,’’ University of Nevada, Reno, USA, February 1997.
Postdoctoral Fellows:
2. Guillermo Hinojosa (jointly with Prof. R.A. Phaneuf), University of Nevada, Reno, USA, September 1998-December 2000.
1. Hocine Merabet, University of Nevada, Reno, USA, March 1996-March 1998.
PUBLICATIONS
56. T. Jahnke, V. Mergel, O. Jagutzki, A. Czasch1, K.Ullmann, R. Ali, V. Frohne, T. Weber, L. P. Schmidt, S. Eckart, M. Schöffler, S. Schößler, S. Voss, A. Landers, D. Fischer, M. Schulz, A. Dorn, L. Spielberger; R. Moshammer, R. Olson, M. Prior, R. Dörner, J. Ullrich, C. L. Cocke, and H. SchmidtBöcking, “High-Resolution Momentum Imaging - From Sterns Molecular Beam Method to the COLTRIMS Reaction Microscope,” in Molecular Beams in Physics and Chemistry: From Otto Stern's Pioneering Exploits to Present-Day Feats, edited by Bretislav Friedrich and Horst Schmidt-Böcking, (Cham: Springer, 2021), appears online March 2021.
55. Philipp Rosenberger, Philipp Rupp, Rami Ali, M. Said Alghabra, Shaohua Sun, Sambit Mitra, Sharjeel A. Khan, Ritika Dagar, Vyacheslav Kim, Mazhar Iqbal, Johannes Schötz, Qingcao Liu, Shanmugavelayutham K. Sundaram, Julia Kredel, Markus Gallei, Cesar Costa-Vera, Boris Bergues, Ali S. Alnaser, and Matthias F. Kling, “Near-Field Induced Reaction Yields from Nanoparticle Clusters,” ACS Photonics 7, 1885 (2020).
54. R.S. Cumbee, L. Liu, D. Lyons, D.R. Schultz, P. C. Stancil1, J.G. Wang, and R. Ali, “Ne X X-ray Emission due to Charge Exchange in M82,” Monthly Notices of the Royal Astronomical Society 458, 3554 (2016).
53. F. Afaneh, R. Ali, R. Qasem, N. Balasmeh, S. Hamasha, R. Dörner, H. Schmidt-Böcking, “First results from the Jordan COLTRIMS imaging system,” Nucl. Instrum. and Meth. B 380, 84 (2016). 52. R. Ali, P. Beiersdorfer, C.L. Harris, and P.A. Neill, “Charge-exchange x-ray spectra: Evidence for significant contributions from radiative decays of doubly excited states,” Phys. Rev. A 93, 012711 (2016).
51. H. Sa’adeh, R. Ali, and D.-E. Arafah, ‘‘Charge-state distributions of energetic 4He ions backscattered from Kr gas target,’’ Nucl. Instrum. and Meth. B 271, 33 (2012).
50. H. Sa’adeh, R. Ali, and D.-E. Arafah, ‘‘Coincident Rutherford Backscattering Spectrometry: A novel technique for measuring charge state distributions in violent ion–atom collisions,’’Nucl. Instrum. and Meth. B 269, 2111 (2011).
49. R. Ali, P.A. Neill, P. Beiersdorfer, C.L. Harris, D.R. Schultz, and P.C. Stancil, ‘‘Critical Test of Simulations of Charge-Exchange-Induced X-Ray Emission in the Solar System,’’Astrophys. J. Lett.716, L95 (2010).
48. Rami Ali, ‘‘Simultaneous COLTRIMS And X-Ray Spectroscopic Studies Relevant To Cometary, Planetary, And Heliospheric X-Ray Emission,’’ in proceedings of the 15th International Conference

on Atomic Processes in Plasmas, edited by J. D. Gillaspy, J. J. Curry, and W. L. Wiese, AIP Conf. Proc. No 926 (AIP, New York, 2007), p. 216.
47. R. Ali, P.A. Neill, C.L. Harris, P. Beiersdorfer, D.R. Schultz, M.J. Rakovic', P.C. Stancil, and J.G. Wang, ‘‘On the significance of the contribution of multiple-electron capture processes to cometary X-ray emission,’’ Astrophys. J. 629, L125 (2005).
46. A.S. Alnaser, B. Ulrich, X-M. Tong, I.V. Litvinyuk, C.M. Maharjan, P. Ranitovic, T. Osipov, R. Ali, S. Ghimire, Z. Chang, C.D. Lin, and C.L. Cocke, ‘‘Simultaneous real-time tracking of coherent wave packets on two different potential curves in H2+ and D2+,’’ (Rapid Communications) Phys. Rev. A 72, 030702(R) (2005).
45. E. Wells, K.D. Carnes, H. Tawara, R. Ali, E.Y. Sidky, C. Illescas, and I. Ben-Itzhak, ‘‘One- and two-electron processes in collisions between hydrogen molecules and slow highly charged Ions,’’ Nucl. Instrum. and Meth. B 241, 101 (2005).
44. E.Y. Kamber, R. Ali, and A.A. Hasan, ‘‘State-selective single-electron capture in Ne4+-He collisions,’’ Nucl. Instrum. and Meth. B 205, 577 (2003).
43. P. C. Stancil, J. G. Wang, M. J. Rakovic', D. R. Schultz, and R. Ali, ‘‘Charge transfer data needs for cometary X-ray emission modeling,’’ in proceedings of 3rd International Conference on Atomic and Molecular Data and Their Applications ICAMDATA, edited by D. R. Schultz, P. S. Krstic', and F. Ownby, AIP Conf. Proc. No. 636 (AIP Press, Melville, NY, 2002), p. 144.
42. A. A. Hasan, F. Eissa, R. Ali, D. R. Schultz, and P. C. Stancil, ‘‘State-selective charge transfer studies relevant to solar wind-comet interactions,’’ Astrophys. J. 560, L201 (2001).
41. P. Beiersdorfer, G.V. Brown, L. Hildebrandt, K. L. Wong, and R. Ali, ‘‘Multiparameter data acquisition system for spectroscopy,’’ Rev. Sci. Instrum. 72, 508 (2001).
40. Rami Ali, Ahmad A. Hasan, Erik D. Emmons, and Guillermo Hinojosa, ‘‘New insights into multielectron processes in slow collisions of highly charged ions with many-electron neutral targets,’’ in proceedings of the Twelfth American Physical Society Topical Conference on Atomic Processes in Plasmas, edited by R.C. Mancini and R.A. Phaneuf, AIP Conf. Proc. No. 547 (AIP, New York, 2000), p. 147.
39. A.A. Hasan, E.D. Emmons, G. Hinojosa, and R. Ali, “Evidence for significant target outer-shell excitation in multiple-electron capture collisions of slow highly charged ions with many-electron atoms,” Phys. Rev. Lett. 83, 4522 (1999).
38. E.D. Emmons, A.A. Hasan, and R. Ali, “Multiple-electron capture processes in 70 keV 15N7+ + Ar collisions: A triple-coincidence study,” Phys. Rev. A 60, 4616 (1999).
37. H. Merabet, H.M. Cakmak, E.D. Emmons, A.A. Hasan, T. Osipov, R.A. Phaneuf, and R. Ali, “Production and relaxation pathways of multiply excited states in slow highly charged ion-atom collisions,’’ (Rapid Communications) Phys. Rev. A 59, R3158 (1999).
36. H. Merabet, H.M. Cakmak, A.A. Hasan, E.D. Emmons, T. Osipov, R.A. Phaneuf, and R. Ali, “Investigation of multi-electron processes in 60 keV O6+ + Ar collisions using a triple coincidence technique,’’ in Proceedings of the Fifteenth International Conference on the Application of Accelerators in Research and Industry, edited by J.L. Duggan and I.L. Morgan, AIP Conf. Proc. No. 475 (AIP, New York, 1999), p. 99.
35. V. Mergel, R. Dörner, M. Achler, Kh. Khayyat, S. Lencinas, J. Euler, O. Jagutzki, S. Nüttgens, M. Unverzagt, L. Spielberger, W. Wu, R. Ali, J. Ullrich, H. Cederquist, A. Salin, C.J. Wood, R.E. Olson, Dz. Belkic, C.L. Cocke, and H. Schmidt-Böcking, “Intra-atomic electron-electron-scattering in p-He collisions (Thomas process) investigated by cold target recoil ion momentum spectroscopy,’’ Phys. Rev. Lett. 79, 387 (1997).

34. M.P. Stockli, R. M. Ali, C.L. Cocke, S. Cowherd, D. Fry, P.E. Gibson, S. Lampenscherf, R.A. Mack, D.C. Parks, M.L.A. Raphaelian, L. Rebohle, N. Renard, P. Richard, T.N. Tipping, T. Werner, J. Werrick, S. Winecki, and W. Wu, “Production, operation and status of the KSU CRYEBIS facility,’’ Physica Scripta T71, 188 (1997).
33. W. Wu, K.L. Wong, E.C. Montenegro, R. Ali, C.Y. Chen, C.L. Cocke, R. Dörner, V. Frohne, J.P. Giese, V. Mergel, W.E. Meyerhof, M. Raphaelian, H. Schmidt-Böcking, and B. Walch, “Electron-electron interaction in the ionization of O7+ by He,’’ Phys. Rev. A. 55, 2771 (1997).
32. R. Ali, I. Ahmad, H.G. Berry, R.W. Dunford, D.S. Gemmell, M. Jung, E.P. Kanter, P.H. Mokler, A.E. Livingston, S. Cheng, and L.J. Curtis, “Shape of the two-photon-continuum emission from the 1s2s 1S0 state in He-like krypton,’’ Phys. Rev. A 55, 994 (1997).
31. R. Ali, H.G. Berry, R.W. Dunford, D.S. Gemmell, E.P. Kanter, T. LeBrun, H.M. Reichenbach, and L. Young, “The VUV spectrum from fast heavy-ion induced excitation of C60,’’ J. Phys. B: At. Mol. Opt. Phys. 29, 5607 (1996).
30. V. Frohne, S. Cheng, R.M. Ali, M.L.A. Raphaelian, C.L. Cocke, and R. Olson, “Measurements of recoil and projectile momentum distributions for 19-MeV F9+ + Ne,’’ Phys. Rev. A. 53, 2407 (1996).
29. R. Ali, H.G. Berry, S. Cheng, R.W. Dunford, H. Esbensen, D.S. Gemmell, E.P. Kanter, T. LeBrun, and L. Young, “The interactions of high-energy, highly charged ions with fullerenes,’’ in Advances in Nuclear Dynamics 2, edited by W. Bauer and G.D. Westfall, (Plenum Press, New York, 1996), p. 279.
28. R. Ali, H.G. Berry, S. Cheng, R.W. Dunford, H. Esbensen, D.S. Gemmell, E.P. Kanter, T. LeBrun, L. Young, and W. Bauer, “The interactions of high-energy, highly charged Xe ions with buckyballs,’’ Nucl. Instrum. and Meth. B 96, 545 (1995).
27. R. Dörner, V. Mergel, R. Ali, U. Buck, C.L. Cocke, K. Froschauer O. Jagutzki, S. Lencinas, W.E. Meyerhof, S. Nüttgens, R.E. Olson, H. Schmidt-Böcking, L. Spielberger, K. Tökesi, J. Ullrich, M. Unverzagt, and W. Wu, “Electron-electron interaction in projectile ionization,’’ Nucl. Instrum. and Meth. B 98, 367 (1995).
26. A.E. Livingston, K.W. Kukla, C.M. Vogel Vogt, H.G. Berry, R.W. Dunford, D.S. Gemmell, E.P. Kanter, J. Suleiman, R. Ali, S. Cheng, and L.J. Curtis, “Fine structure energies for the 1s2s3S-1s2p3P transition in helium-like ions,’’ Nucl. Instrum. and Meth. B 98, 28 (1995).
25. R. Ali, I. Ahmad, H.G. Berry, R.W. Dunford, D.S. Gemmell, E.P. Kanter, P.H. Mokler, A.E. Livingston, S. Cheng, and L.J. Curtis, “Spectral distribution of the two-photon decay of He-like krypton,’’ Nucl. Instrum. and Meth. B 98, 69 (1995).
24. C.L. Cocke, W. Wu, K.L. Wong, R. Ali, V. Frohne, R. Dörner, V. Mergel, K. Froschauer, О. Jagutzki, R.E. Olson, H. Schmidt-Böcking, M. Unverzagt, W.E. Meyerhof, and J. Ullrich, “Recoil Momentum Spectroscopy in Ion-Atom and Photon-Atom Collisions,’’ in Proceedings of the Workshop on Atomic Physics at High Brilliance Synchrotron Sources, Argonne National Laboratory, April 1994, Co-Chaired by G. Berry, P. Cowan, and D. Gemmell, ANL/APS/TM-14, p. 259.
23. W. Wu, J.P. Giese, Z. Chen, R. Ali, C.L. Cocke, P. Richard, and M. Stöckli, “Evidence for population of highly asymmetric states in double electron capture by O7,8+ and N7+ colliding with He at low to intermediate velocities,’’ Phys. Rev. A 50, 502 (1994).
22. W. Wu, K.L. Wong, R. Ali, C.Y. Chen, C.L. Cocke, V. Frohne, J.P. Giese, M. Raphaelian, B. Walch, R. Dörner, V. Mergel, H. Schmidt-Böcking, and W.E. Meyerhof, “Experimental separation

of electron-electron and electron-nuclear contributions to ionization of fast hydrogenlike ions colliding with He,’’ Phys. Rev. Lett. 72, 3170 (1994).
21. R. Dörner, V. Mergel, R. Ali, U. Buck, C.L. Cocke, K. Froschauer, O. Jagutzki, S. Lencinas, W.E. Meyerhof, S. Nüttgens, R.E. Olson, H. Schmidt-Böcking, L. Spielberger, K. Tökesi, J. Ullrich, M. Unverzagt, and W. Wu, “Electron-electron interaction in projectile ionization investigated by high resolution recoil ion momentum spectroscopy,’’ Phys. Rev. Lett. 72, 3166 (1994).
20. R. Ali, C.L. Cocke, M.L.A. Raphaelian and M. Stockli, “Multi-electron processes in 10 keV/u Arq+ (5  q  17) on Ar collisions,’’ Phys. Rev. A 49, 3586 (1994).
19. W. Wu, J.P. Giese, I. Ben-Itzhak, C.L. Cocke, P. Richard, M. Stockli, R. Ali, H. Schöne, and R.E. Olson, “Velocity dependence of one- and two-electron processes in intermediate-velocity Ar16+ + He collisions,’’ Phys. Rev. A 48, 3617 (1993).
18. B.P. Walch, S. Maleki, R. Ali, M.P. Stöckli, M.L.A. Raphaelian, C.L. Cocke and B.D. DePaola, “Enhancement of charge capture from laser-excited target by highly charged ions,’’ (Rapid Communications) Phys. Rev. A 47, R3499 (1993).
17. R. Ali, C.L. Cocke, M.L.A. Raphaelian and M. Stockli, “Angular distribution measurements in multiple-electron capture collisions of 50 keV Ar15+ with Ar,’’ (Letter to the Editor) J. Phys. B: At. Mol. Opt. Phys. 26, L685 (1993).
16. V.Frohne, S. Cheng, R. Ali, M. Raphaelian, C.L. Cocke and R.E. Olson, “Measurements of recoil ion longitudinal momentum transfer in multiply ionizing collisions of fast heavy ions with multielectron targets,’’ Phys. Rev. Lett. 71, 696 (1993).
15. R. Ali, C.L. Cocke, M.L.A. Raphaelian and M. Stockli, “On the radiative stabilization in slow double-electron capture collisions of highly charged ions with neutral atoms,’’ (Letter to the Editor) J. Phys. B: At. Mol. Opt. Phys. 26, L177 (1993).
14. J.P. Giese, W. Wu, I. Ben-Itzhak, C.L. Cocke, R. Ali, P. Richard, M. Stöckli and H. Schöne, “One and two electron processes in collisions of highly charged ions with He at velocities around 1 a.u.,’’ in the Physics of Electronic and Atomic Collisions (XVIII International Conference, Aarhus, Denmark, July 1993), edited by Torkild Andersen et al., AIP Conf. Proc. No. 295 (AIP, New York, 1993), p.585.
13. B. d'Etat, J.P. Briand, G. Ban, L. de Billy, P. Briand, J.P. Desclaux, G. Melin, T. Lamy, M. Lamboley, P. Richard, M. Stockli, R. Ali, N. Renard, D. Schneider, M. Clark, P. Beiersdorfer and V. Decaux, “X ray spectroscopy of highly charged ions interacting with surfaces,’’ in VIth International Conference on the Physics of Highly Charged Ions, edited by Patrick Richard et al., AIP Conf. Proc. No. 274 (AIP, New York, 1993), p. 592.
12. W. Wu, J.P. Giese, P. Richard, M. Stockli, R. Ali, C.L. Cocke and H. Schöne, “One and two electron processes in 0.9 keV/u to 60 keV/u Ar16+ + He collisions,’’ in VIth International Conference on the Physics of Highly Charged Ions, edited by Patrick Richard et al., AIP Conf. Proc. No. 274 (AIP, New York, 1993), p. 147.
11. C.L. Cocke, M. Stockli, R. Ali, M. Schulz and C.P. Bhalla, “Atomic physics experiments on the KSU EBIS,’’ in The 5-th International Symposium on Electron Beam Ion Sources and their Applications, edited by E.D. Donets and I.P. Yudin, (Scientific Research Firm “I.V.K.-SOFT'', 1993), p. 101.
10. Martin P. Stockli, R.M. Ali, C.L. Cocke, M.L.A. Raphaelian, P. Richard and T.N. Tipping, “The KSU-CRYEBIS: A unique ion source for low-energy highly-charged ions,’’ in The 5-th International Symposium on Electron Beam Ion Sources and their Applications, edited by E.D. Donets and I.P. Yudin, (Scientific Research Firm “I.V.K.-SOFT'', 1993), p. 82.

9. R. Ali, V. Frohne, C.L. Cocke, M. Stockli, S. Cheng and M.L.A. Raphaelian, “Q-value measurements in charge transfer collisions of highly charged ions with atoms by recoil longitudinal momentum spectroscopy,’’ Phys. Rev. Lett. 69, 2491 (1992).
8. Martin P. Stockli, R.M. Ali, C.L. Cocke, M.L.A. Raphaelian, P. Richard and T.N. Tipping, “The KSU-CRYEBIS: A unique ion source for low-energy highly charged ions,’’ Rev. Sci. Instrum. 63, 2822 (1992).
7. R. Ali, C.P. Bhalla, C.L. Cocke, M. Schulz and M. Stockli, “Electron-ion recombination experiments on the KSU EBIS,’’ in Recombination of Atomic Ions, edited by W.G Graham et al., (Plenum Press, New York, 1992), p. 193.
6. R. Ali, C.P. Bhalla, C.L. Cocke, M. Schulz and M. Stockli, “X-rays from electron bombardment of heliumlike argon,’’ Z. Phys. D 21, s207 (1991).
5. R. Ali, C.P. Bhalla, C.L. Cocke, M. Schulz and M. Stockli, “Dielectronic recombination on and electron-impact excitation of heliumlike argon,’’ Phys. Rev. A 44, 223 (1991).
4. M. Schulz, R. Ali, C.L. Cocke, S. Hagmann, M. Stockli and H. Schmidt-Böcking, “Recent experiments on the KSU CRYEBIS,’’ Nucl. Instrum. and Meth. B 56/57, 1161 (1991).
3. C.L. Cocke, R. Ali, C.P. Bhalla, M. Stockli and M. Schulz, “Recent experiments on the KSU EBIS,’’ Nucl. Instrum. and Meth. B 53, 432 (1991).
2. M.P. Stockli, R. M. Ali, K.R. Buck, A.C. Canelos, C.L. Cocke, P.E. Gibson, P.E. Lammert, G.J. Lehman, C.L. Lewis, R.A. Mack, B.C. McLaren, M.D. Morrison, M. Schulz, J.M. Socolofsky and S.D. Worm, “The KSU-CRYEBIS: A unique accelerator system for low energy, highly charged ions,’’ in Symposium of North-Eastern Accelerator Personnel, edited by T.N. Tipping and R.D. Krause, (World Scientific, Singapore, 1991), p. 79.
1. R. Ali, C.P. Bhalla, C.L. Cocke and M. Stockli, “Dielectronic recombination on heliumlike argon,’’ Phys. Rev. Lett. 64, 633 (1990).
INVITED SCIENTIFIC TALKS
18. “Experimental Studies of the Energy Dependence of State-Selective Non-Dissociative Single Electron Capture in He2+ on H2 Collisions,’’ IAEA Technical Meeting on Uncertainty Assessment and Benchmark Experiments for Atomic and Molecular Data for Fusion Applications, IAEA Headquarters, Vienna, Austria, December 2016.
17. “Charge Exchange Measurements Using Simultaneous X-Ray and COLTRIMS Measurements,’’ 15th International Conference on the Physics of Highly Charged Ions (HCI2010), Shanghai, China, August-September 2010.
16. ‘‘Simultaneous COLTRIMS And X-Ray Spectroscopic Studies Relevant To Cometary, Planetary, And Heliospheric X-Ray Emission,’’ Colloquium, Department of Physics, University of Nevada, Reno, Nevada, USA, July 2008.
15. ‘‘COLTRIMS: A Reaction Microscope for Studying the Interaction of Synchrotron Radiation with Atoms, Molecules, and Clusters,’’ 6th SESAME Users’ Meeting, Amman, Jordan, November, 2007.
14. ‘‘Training and Educating Future Generations of Middle East Scientists Using SESAME and JOVAC,’’ IAEA Technical Meeting on Enhancing Nuclear Science Education and Training using Accelerators, Accra, Ghana, September 2007.

13. ‘‘Coincident COLTRIMS and X-ray spectroscopic studies of charge exchange processes,’’ X-ray Emission in the Solar System Workshop, Harvard Smithsonian Center for Astrophysics, Cambridge, Massachusetts, USA, July 2007.
12. ‘‘Simultaneous COLTRIMS And X-Ray Spectroscopic Studies Relevant To Cometary, Planetary, And Heliospheric X-Ray Emission,’’ the 15th International Conference on Atomic Processes in Plasmas (APiP), Gaithersburg, Maryland, USA, March 2007.
11. ‘‘Unraveling Ionic and Photonic Interactions with Atoms and Molecules Using COLTRIMS, Auger, and X-ray Spectroscopy,’’ the 2nd Jordanian Synchrotron Users Workshop, Amman, Jordan, September 2006.
10. “Multielectron Processes in Low Energy Collisions of Multiply Charged Ions with Many-Electron Atoms,” the XXII International Conference on Photonic, Electronic, and Atomic Collisions (ICPEAC), Santa Fe, New Mexico, USA, July 2001.
9. “Target Excitation in Multiple-Electron Capture Collisions of Slow Multiply Charged Ions with Many-Electron Targets,” the 16th International Conference on the Applications of Accelerators in Research and Industry (CAARI), Denton, Texas, USA, November 2000.
8. “New Insights into Multielectron Processes in Slow Collisions of Highly Charged Ions with Many-Electron Neutral Targets,” the 12th American Physical Society Topical Conference on Atomic Processes in Plasmas (APiP), Reno, Nevada, USA, March 2000.
7. “Attempts Toward a Deeper Understanding of Multielectron Processes in Slow Highly Charged Ion-Atom Collisions,’’ annual meeting of the Division of Atomic, Molecular and Optical Physics (DAMOP) of the American Physical Society, Washington, DC, USA, April 1997.
6. “Multielectron Phenomena in Low Energy Collisions of Multiply Charged Ions with Atoms,’’ Department of Physics, University of Nevada, Reno, USA, October 1994.
5. “X-ray Emission in Charge-Transfer Collisions of Slow Highly Charged Ions with Neutral Atoms,’’ 16th International Conference on X-ray and Inner-Shell Processes, Debrecen, Hungary, July 1993.
4. “Multielectron Processes in Slow Collisions of Highly Charged Ions with Atoms,’’ Institute for Nuclear Physics, Frankfurt University, Frankfurt, Germany, June 1993.
3. “Multielectron Processes in Low Energy Collisions of Highly Charged Ions with Atoms,’’ Physics Division, Argonne National Laboratory, Argonne, Illinois, USA, May 1993.
2. “On the Radiative Stabilization in Slow Double-Electron Capture Collisions of Highly Charged Ions with Atoms,’’ V-Division, Lawrence Livermore National Laboratory, Livermore, California, USA, May 1993.
1. “Q-Value Measurements in Charge Transfer Collisions of Highly Charged Ions with Atoms by Recoil Longitudinal Momentum Spectroscopy,’’ (Hot Topics Session), VIth International Conference on the Physics of Highly Charged Ions (HCI), Manhattan, Kansas, USA, September-October 1992.
INVITED ADMINISTRATIVE TALKS
5. “From Erasmus Mundus to Erasmsus+: The University of Jordan Experience,” 10 Years of Erasmus Mundus Partnerships (2007-2017) – Worldwide Bridges towards the Future, Brussels, Belgium, February 2017.
4. “Internationalization of The University of Jordan,” Bilateral Erasmus+ Higher Education Seminar: Lithuania-Jordan, Amman, Jordan, November 2016.
10
3. “Good Practices on Management of University Student Mobility,” Recognition of Qualifications and Internationalisation of Higher Education in the Euro-Mediterranean Region Conference, Bologna, Italy, May 2016.
2. “UJ in the Global Age,’’ Higher Education in the Global Age Conference organized in conjunction with the dedication of the downtown campus of NYU Abu Dhabi, Abu Dhabi, UAE, December 2009.
1. “EMECW: UJ’s Most Effective Academic Mobility Mechanism Yet,’’ 21st Annual European Association for International Education (EAIE) Conference, Madrid, Spain, September 2009.
PROFESSIONAL SERVICES
In addition to serving on numerous departmental, college, and university committees at the four universities I worked at, I
Served as:
• Member, several Selection and Review Committees, Jordanian-American Commission for Educational Exchange (JACEE) (aka The Binational Fulbright Commission in Jordan), 2014-2018.
• Expert participant, “IAEA Technical Meeting on Uncertainty Assessment and Benchmark Experiments for Atomic and Molecular Data for Fusion Applications,” IAEA Headquarters, Vienna, Austria, December 2016.
• Trainer, “IAEA Regional Training Course on Atmospheric Aerosol Sampling Procedures and Analysis Techniques,” November 2013.
• Trainer, “IAEA Regional Training Course on Advanced Nuclear and Related Analytical Techniques in Art and Archaeology,” Amman, Jordan, July 2009.
• Jordan National Coordinator, IAEA Regional Project RAS/1/010, ARASIA “Use of Small Accelerators as Nuclear Analytical Tool in Art and Archeology,” 2008-2009.
• Expert participant, “IAEA Technical Meeting on Enhancing Nuclear Science Education and Training using Accelerators,” Accra, Ghana, September 2007.
• Member, SESAME Jordanian Users Committee, 2006-2007.
• Member, Scientific Program and Local Organizing Committees, Sixth SESAME Users’ Meeting, Amman, Jordan, 17-19 November, 2007.
Refereed for:
• Physical Review Letters.
• Physical Review A.
• Physica Scripta.
• Canadian Journal of Physics.
• Jordan Journal of Physics
• Dirasat (published by The University of Jordan)
• U.S. National Science Foundation (NSF), Atomic and Molecular Dynamics Program, grant proposals.
• U.S. Civilian Research and Development Foundation for the Independent States of the Former Soviet Union, grant proposals.
• Nevada Space Grant Consortium, student project grant proposals.

Achievements and Awards

• Nominated by the College of Arts & Science for the campus-wide Tibbitt’s Distinguished Teacher Award, University of Nevada, Reno, USA, 2000,
• Runner-up of the Alan Bible Teaching Excellence Award, College of Arts & Science, University of Nevada, Reno, USA, 2000.
• The College of Arts & Sciences Graduate Teaching Award, Kansas State University, USA, 1989.
• Royal Award for Academic Excellence, granted by His Majesty the Late King Hussein of Jordan, 1986, for ranking first among the 43 physics graduates in the class of 1986.
• Yarmouk Medal for Academic Excellence, Yarmouk University, Jordan, 1986, for ranking first among the 43 physics graduates in the class of 1986.

  • Marital status :
  • City :
  • Status :
  • Years in active : From To