Department Directory

Faculty

Dr. Peter A. Delamere

Professor, Physics Academic Advisor

padelamere@alaska.edu | 907-474-6442

708 Elvey Bldg/108 Reichardt Bldg

Special Interests/Research: Comparative magnetospheric physics with emphasis on the numerical simulation of space plasmas using hybrid (kinetic ion, fluid electron) and multi-fluid techniques

Learn more about Dr. Peter A. Delamere

Selected Publications

Delamere, P. A., R. J. Wilson, S. Wing, A. R. Smith, B. Mino, C. Spitler, P. Damiano, K. Sorathia, A. Sciola, J. Caggiano, J. R. Johnson, X. Ma, F. Bagenal, B. Zhang, F. Allegrini, R. Ebert, G. Clark, and O. Brambles, Signatures of open magnetic flux in Jupiter’s dawnside magnetotail, AGU Advances, 5(2), e2023AV001,111,
doihttps://doi.org/10.1029/2023AV001111, e2023AV001111 2023AV001111, 2024.
Cao, X., X. Chu, H.-W. Hsu, H. Cao, W. Sun, L. Liuzzo, J. Halekas, C. Paty, F. Chu, O. Agiwal, L. Blum, Crary, I. J. Cohen, P. Delamere, M. Hofstadter, G. Hospodarsky, C. John, P. Kollmann, E. Kronberg, W. Kurth, L. Lamy, D. Lin, W. Li, X. Ma, D. Malaspina, M. Morooka, T. Nordheim, F. Postberg, Poppe, C. Richard, S. Ruhunusiri, K. Soderlund, J. O’Donoghue, and F. Plaschke, Science return of probing magnetospheric systems of ice giants, Frontiers in Astronomy and Space Sciences, 11, 1203705, doi10.3389/fspas.2024.1203705, 2024.
Chen, J., B. Zhang, P. A. Delamere, Z. Yao, and O. Brambles, The Dynamic Response of Jovian Magnetotail Reconnection to Enhanced Solar Wind Ram Pressure, ApJ, 969(2), 137, doi10.3847/1538- 4357/ad509c10.22541/essoar.168677210.01991470/v1, 2024.
Gu, W. D., Z. H. Yao, Y. Wei, T. S. Qin, B. Z. Zhang, Y. Xu, W. R. Dunn, P. A. Delamere, and Y. N. Chen, A Survey of Magnetic Field Line Curvature in Jovian Dawn Magnetodisc, Geophys. Res. Lett., 51(1), e2023GL106971, doi10.1029/2023GL106971, 2024.
Ma, X., P. Delamere, K. Nykyri, A. Otto, S. Eriksson, L. Chai, B. Burkholder, A. Dimmock, Y.-L. Liou, and Kavosi, Density and Magnetic Field Asymmetric Kelvin-Helmholtz Instability, Journal of Geophysical Research (Space Physics), 129(3), e2023JA032234, doi10.1029/2023JA032234, 2024.
Sarkango, Y., J. R. Szalay, A. H. Sulaiman, P. A. Damiano, D. J. McComas, J. Rabia, P. A. Delamere, J. Saur, Clark, R. W. Ebert, and F. Allegrini, Resonant Plasma Acceleration at Jupiter Driven by Satellite Magnetosphere Interactions, Geophys. Res. Lett., 51(5), e2023GL107431, doi10.1029/2023GL107431, 2024.
Zhang, B., Z. Yao, O. J. Brambles, P. A. Delamere, W. Lotko, D. Grodent, B. Bonfond, J. Chen, K. A. Sorathia, V. G. Merkin, and J. G. Lyon, A unified framework for global auroral morphologies of different planets, Nature Astronomy, doi10.1038/s41550-024-02270-3, 2024.
Chen, J., B. Zhang, D. Lin, P. A. Delamere, Z. Yao, O. Brambles, K. A. Sorathia, V. G. Merkin, and J. G. Lyon, Prediction of Axial Asymmetry in Jovian Magnetopause Reconnection, Geophys. Res. Lett., 50(9), e2022GL102577, doi10.1029/2022GL102577, 2023.
Crary, F., P. Delamere, C. Dong, G. Hospadarsky, S. Hsu, P. Kollmann, A. Kotova, T. Livengood, Retherford, J. Szalay, M. Vogt, and L. Wang, The Magnetosphere of Jupiter: Moving from Discoveries Towards Understanding, in Bulletin of the American Astronomical Society, vol. 55, p. 081, doi10.3847/25c2cfeb.1290f1ff, 2023.
Damiano, P. A., P. A. Delamere, E. H. Kim, J. R. Johnson, and C. S. Ng, Electron Energization by Inertial Alfven Waves in Density Depleted Flux Tubes at Jupiter, ́ Geophys. Res. Lett., 50(5), e2022GL102467, doi10.1029/2022GL102467, 2023.
Feng, E., B. Zhang, Z. Yao, P. A. Delamere, Z. Zheng, W. R. Dunn, and S.-Y. Ye, Variation of the Jovian Magnetopause Under Constant Solar Wind Conditions: Significance of Magnetodisc Dynamics, Geophys. Res. Lett., 50(12), e2023GL104046, doi10.1029/2023GL104046, 2023.
Gu, W. D., Z. H. Yao, D. X. Pan, Y. Xu, B. Zhang, P. A. Delamere, S. Y. Fu, L. Xie, S. Y. Ye, N. Chen, W. R. Dunn, and Y. Wei, Hourly Periodic Variations of Ultralow-Frequency (ULF) Waves in Jupiter’s Magnetosheath, Journal of Geophysical Research (Planets), 128(2), e2022JE007625, doi10.1029/2022JE007625, 2023.
Schok, A. A., P. A. Delamere, B. Mino, P. A. Damiano, B. Zhang, A. Sciola, K. Sorathia, S. Wing, R. Johnson, X. Ma, Z. Yao, and O. Brambles, Periodicities and Plasma Density Structure of Jupiter’s Dawnside Magnetosphere, Journal of Geophysical Research (Planets), 128(2), e2022JE007637, doi10.1029/2022JE007637, 2023.
Vu, A., T. Z. Liu, H. Zhang, and P. Delamere, Parameter Dependencies of Early-Stage Tangential Discontinuity-Driven Foreshock Bubbles in Local Hybrid Simulations, Journal of Geophysical Research (Space Physics), 128(2), e2022JA030815, doi10.1029/2022JA030815, 2023.
Xu, Y., Z. H. Yao, B. Zhang, P. A. Delamere, L. C. Ray, W. R. Dunn, S. V. Badman, E. H. Feng, Z. Q. Zheng, S. J. Bolton, D. Grodent, B. Bonfond, and Y. Wei, On the Relation Between Jupiter’s Aurora and the Dawnside Current Sheet, Geophys. Res. Lett., 50(13), e2023GL104123, doi10.1029/2023GL104123, 2023.
Coffin, D., P. Damiano, P. Delamere, J. Johnson, and C.-S. Ng, Broadband Energization of Superthermal Electrons in Jupiter’s Inner Magnetosphere, Journal of Geophysical Research (Space Physics), 127(8), e30528, doi10.1029/2022JA030528, 2022.
Feng, E., B. Zhang, Z. Yao, P. A. Delamere, Z. Zheng, O. J. Brambles, S.-Y. Ye, and K. A. Sorathia, Dynamic Jovian Magnetosphere Responses to Enhanced Solar Wind Ram Pressure: Implications for Auroral Activities, Geophys. Res. Lett., 49(19), e2022GL099858, doi10.1029/2022GL099858, 2022.
Lorch, C. T. S., L. C. Ray, R. J. Wilson, F. Bagenal, F. Crary, P. A. Delamere, P. A. Damiano, C. E. J. Watt, and F. Allegrini, Evidence of Alfvenic Activity in Jupiter’s Mid-To-High Latitude Magnetosphere, Journal of Geophysical Research (Space Physics), 127(6), e29853, doi10.1029/2021JA029853, 2022.
Ma, X., P. A. Delamere, A. Schok, S. Wing, J. R. Johnson, and Y.-L. Liou, Jupiter’s Sheared Flow Unstable Magnetopause Boundary Observed by Juno, Journal of Geophysical Research (Space Physics), 127(10), e2022JA030719, doi10.1029/2022JA030719, 2022.
Ng, C. S., B. R. Neupane, P. A. Delamere, and P. A. Damiano, A Turbulent Heating Model Combining Diffusion and Advection Effects for Giant Planet Magnetospheres, Geophys. Res. Lett., 49(2), e96662, doi10.1029/2021GL096662, 2022.
Szalay, J. R., H. T. Smith, E. J. Zirnstein, D. J. McComas, L. J. Begley, F. Bagenal, P. A. Delamere, J. Wilson, P. W. Valek, A. R. Poppe, Q. Nenon, F. Allegrini, R. W. Ebert, and S. J. Bolton, Water Group Pickup Ions From Europa-Genic Neutrals Orbiting Jupiter, Geophys. Res. Lett., 49(9), e98111, doi10.1029/2022GL098111, 2022.
Vu, A., T. Z. Liu, H. Zhang, and P. Delamere, Hybrid Simulations of a Tangential Discontinuity-Driven Foreshock Bubble Formation in Comparison With a Hot Flow Anomaly Formation, Journal of Geophysical Research (Space Physics), 127(6), e29973, doi10.1029/2021JA029973, 2022.
Wing, S., M. F. Thomsen, J. R. Johnson, D. G. Mitchell, R. C. Allen, X. Ma, and P. A. Delamere, The Roles of Flux Tube Entropy and Effective Gravity in the Inward Plasma Transport at Saturn, ApJ, 937(1), 42, doi10.3847/1538-4357/ac85b2, 2022.
Zhang, H., Q. Zong, H. Connor, P. Delamere, G. Facsko, D. Han, H. Hasegawa, E. Kallio, ́ A. Kis, G. Le, Lembege, Y. Lin, T. Liu, K. Oksavik, N. Omidi, A. Otto, J. Ren, Q. Shi, D. Sibeck, and S. Yao, Dayside Transient Phenomena and Their Impact on the Magnetosphere and Ionosphere, Space Sci. Rev., 218(5), 40, doi10.1007/s11214-021-00865-0, 2022.
Delamere, P. A., N. P. Barnes, X. Ma, and J. R. Johnson, The Kelvin-Helmholtz Instability from the Perspective of Hybrid Simulations, Frontiers in Astronomy and Space Sciences, 8, 211, doi10.3389/fspas.2021.801824, 2021.
Delamere, P. A., C. S. Ng, P. A. Damiano, B. R. Neupane, J. R. Johnson, B. Burkholder, X. Ma, and Nykyri, Kelvin-Helmholtz Related Turbulent Heating at Saturn’s Magnetopause Boundary, Journal of Geophysical Research (Space Physics), 126(2), e28479, doi10.1029/2020JA028479, 2021.
Eriksson, S., X. Ma, J. L. Burch, A. Otto, S. Elkington, and P. A. Delamere, MMS Observations of Double Mid-Latitude Reconnection Ion Beams in the Early Non-Linear Phase of the Kelvin-Helmholtz Instability, Frontiers in Astronomy and Space Sciences, 8, 188, doi10.3389/fspas.2021.760885, 2021.
Ma, X., P. Delamere, K. Nykyri, B. Burkholder, S. Eriksson, and Y.-L. Liou, Ion dynamics in the meso-scale 3-D Kelvin-Helmholtz instability: perspectives from test particle simulations, Frontiers in Astronomy and Space Sciences, 8, 185, doi10.3389/fspas.2021.758442, 2021.
Johnson, J. R., S. Wing, P. Delamere, S. Petrinec, and S. Kavosi, Field Aligned Currents in Auroral Vortices, Journal of Geophysical Research (Space Physics), 126(2), e28583, doi10.1029/2020JA028583, 2021.
Neupane, B. R., P. A. Delamere, X. Ma, C. S. Ng, B. Burkholder, and P. Damiano, On The Nature of Turbulent Heating and Radial Transport in Saturn’s Magnetosphere, Journal of Geophysical Research (Space Physics), 126(1), e27986, doi10.1029/2020JA027986, 2021.
Nykyri, K., X. Ma, B. Burkholder, R. Rice, J. R. Johnson, E. K. Kim, P. Delamere, A. Michael, K. Sorathia, Lin, S. Merkin, S. Fuselier, J. Broll, O. Le Contel, D. Gershman, I. Cohen, B. Giles, R. J. Strangeway, T. Russell, and J. L. Burch, MMS Observations of the Multiscale Wave Structures and Parallel Electron Heating in the Vicinity of the Southern Exterior Cusp, Journal of Geophysical Research (Space Physics), 126(3), e27698, doi10.1029/2019JA027698, 2021.
Wilson, R. J., D. B. Reisenfeld, P. A. Delamere, R. C. Allen, and T. A. Cassidy, Revisiting magnetospheric CAPS TOF data post Cassini, Icarus, 357, 114245, doi10.1016/j.icarus.2020.114245, 2021.
Zhang, B., P. A. Delamere, Z. Yao, B. Bonfond, D. Lin, K. A. Sorathia, O. J. Brambles, W. Lotko, J. S. Garretson, V. G. Merkin, D. Grodent, W. R. Dunn, and J. G. Lyon, How Jupiter’s unusual magnetospheric topology structures its aurora, Science Advances, 7(15), doi10.1126/sciadv.abd1204, 2021.
Burkholder, B. L., P. A. Delamere, J. R. Johnson, and C. S. Ng, Identifying Active Kelvin- Helmholtz Vortices on Saturn’s Magnetopause Boundary, Geophys. Res. Lett., 47(1), e84206, doi10.1029/2019GL084206, 2020.

Coffin, D., P. Delamere, and P. Damiano, Implications for Magnetosphere-Ionosphere Coupling From Jupiter’s System IV Quasi-Period, Journal of Geophysical Research (Space Physics), 125(5), e27347, doi10.1029/2019JA027347, 2020.
Allen, R. C., C. P. Paranicas, F. Bagenal, S. K. Vines, D. C. Hamilton, F. Allegrini, G. Clark, P. A. Delamere, T. K. Kim, S. M. Krimigis, D. G. Mitchell, T. H. Smith, and R. J. Wilson, Energetic Oxygen and Sulfur Charge States in the Outer Jovian Magnetosphere: Insights From the Cassini Jupiter Flyby, Geophys. Res. Lett., 46(21), 11,709–11,717, doi10.1029/2019GL085185, 2019.
Elliott, H. A., D. J. McComas, E. J. Zirnstein, B. M. Randol, P. A. Delamere, G. Livadiotis, F. Bagenal, N. P. Barnes, S. A. Stern, L. A. Young, C. B. Olkin, J. Spencer, H. A. Weaver, K. Ennico, G. R. Gladstone, C. W. Smith, N. Horizons Plasma, and Particle Team, Slowing of the Solar Wind in the Outer Heliosphere, ApJ, 885(2), 156, doi10.3847/1538-4357/ab3e49, 2019.
Guo, R. L., Z. H. Yao, N. Sergis, Y. Wei, X. J. Xu, A. J. Coates, P. A. Delamere, E. Roussos, C. S. Ar- ridge, J. H. Waite, N. Krupp, D. Mitchell, J. Burch, M. K. Dougherty, and W. X. Wan, Long-standing Small-scale Reconnection Processes at Saturn Revealed by Cassini, ApJ, 884(1), L14, doi10.3847/2041- 8213/ab4429, 2019.
Kollmann, P., M. E. Hill, R. C. Allen, R. L. McNutt, L. E. Brown, N. P. Barnes, P. Delamere, G. Clark, G. B. Andrews, N. Salazar, J. Westlake, G. Romeo, J. Vandegriff, M. Kusterer, D. Smith, K. Nelson, S. Jaskulek, R. B. Decker, A. F. Cheng, S. M. Krimigis, C. M. Lisse, D. G. Mitchell, H. A. Weaver, H. A. Elliott, E. Fattig, G. R. Gladstone, P. W. Valek, S. Weidner, J. Kammer, F. Bagenal, M. Horanyi, D. Kaufmann, A. Harch, C. B. Olkin, M. R. Piquette, J. R. Spencer, L. A. Young, K. Ennico, M. E. Summers, and S. A. Stern, Pluto’s Interaction With Energetic Heliospheric Ions, Journal of Geophysical Research (Space Physics), 124(9), 7413–7424, doi10.1029/2019JA026830, 2019a.
Barnes, N. P., P. A. Delamere, D. F. Strobel, F. Bagenal, D. J. McComas, H. A. Elliott, P. Valek, H. Weaver, K. Ennico, L. A. Young, and S. Stern, Constraining the IMF at Pluto using New Horizons SWAP data and Hybrid Simulations, Journal of Geophysical Research: Space Physics, doi10.1029/2018JA026083, 2019.
Burkholder, B. L., A. Otto, P. A. Delamere, and J. E. Borovsky, Magnetic connectivity in the corona as a source of structure in the solar wind, Journal of Geophysical Research: Space Physics, 124(1), 32–49, doi10.1029/2018JA026132, 2019.
Damiano, P. A., P. A. Delamere, B. Stauffer,C.-S. Ng, and J. R. Johnson, Kinetic Simulations of Electron Acceleration by Dispersive Scale Alfven Waves in Jupiter’s Magnetosphere, ´ Geophys. Res. Lett., 46, 3043–3051, doi10.1029/2018GL081219, 2019.
Kollmann, P., M. E. Hill, J. McNutt, R. L., L. E. Brown, R. C. Allen, G. Clark, B. Andrews, N. Salazar, J. Westlake, G. Romeo, J. Vandegriff, M. Kusterer, D. Smith, S. Jaskulek, R. Decker, A. F. Cheng, S. M. Krimigis, C. M. Lisse, D. G. Mitchell, H. A. Weaver, P. Delamere, H. A. Elliott, E. Fattig, G. R. Gladstone, P. W. Valek, S. Weidner, F. Bagenal, M. Horanyi, J. A. Kammer, D. Kaufmann, C. B. Olkin, M. R. Piquette, J. R. Spencer, A. J. Steffl, S. A. Stern, L. A. Young, K. Ennico, I. R. Linscott, D. F. Strobel, M. E. Summers, and J. R. Szalay, Suprathermal Ions in the Outer Heliosphere, ApJ, 876(1), 46, doi10.3847/1538-4357/ab125f, 2019.
Ma, X., P. A. Delamere, M. F. Thomsen, A. Otto, B. Neupane, B. Burkholder, and K. Nykyri, Flux tube entropy and specific entropy in Saturn’s magnetosphere, Journal of Geophysical Research: Space Physics, doi 10.1029/2018JA026150, 2019.
Neupane, B. R., P. A. Delamere, R. J. Wilson, and X. Ma, Quantifying Mass and Magnetic Flux Transport in Saturn’s Magnetosphere, Journal of Geophysical Research (Space Physics), 124, 1916–1926, doi10.1029/2018JA026022, 2019.
Stauffer, B. H., P. A. Delamere, X. Ma, B. R. Neupane, and B. L. Burkholder, Hybrid Simulations of Magnetodisc Transport Driven by the Rayleigh-Taylor Instability, Journal of Geophysical Research (Space Physics), 124(7), 5107–5120, doi10.1029/2018JA026420, 2019.
Tsuchiya, F., R. Arakawa, H. Misawa, M. Kagitani, R. Koga, F. Suzuki, R. Hikida, K. Yoshioka, A. Steffl, F. Bagenal, P. Delamere, T. Kimura, Y. Kasaba, G. Murakami, I. Yoshikawa, A. Yamazaki, and M. Yoneda, Azimuthal Variation in the Io Plasma Torus Observed by the Hisaki Satellite From 2013 to 2016, Journal of Geophysical Research (Space Physics), 124(5), 3236–3254, doi10.1029/2018JA026038, 2019.
Delamere P. A. and Burkholder B. and Ma X., Three-dimensional hybrid simulation of viscous-like pro- cesses at Saturn’s magnetopause boundary, Geophysical Research Letters, doi10.1029/2018GL078922, 2018.
Guo, R. L., Z. H. Yao, Y. Wei, L. C. Ray, I. J. Rae, C. S. Arridge, A. J. Coates, P. A. Delamere, N. Ser- gis, P. Kollmann, D. Grodent, W. R. Dunn, J. H. Waite, J. L. Burch, Z. Y. Pu, B. Palmaerts, and M. K. Dougherty, Rotationally driven magnetic reconnection in Saturn’s dayside, Nature Astronomy, doi10.1038/s41550-018-0461-9, 2018. Kimura, T., Y. Hiraki, C. Tao, F. Tsuchiya,
P. A. Delamere, K. Yoshioka, G. Murakami, A. Yamazaki, H. Kita, S. V. Badman, K. Fukazawa, I. Yoshikawa, and M. Fujimoto, Response of Jupiter’s Aurora to Plasma Mass Loading Rate Monitored by the Hisaki Satellite During Volcanic Eruptions at Io, Journal of Geophysical Research: Space Physics, 123(3), 1885–1899, doi10.1002/2017JA025029, 2018.
Ng, C. S., P. A. Delamere, V. Kaminker, and P. A. Damiano, Radial transport and plasma heating in Jupiter’s magnetodisc, Journal Geophysical Research, doi: 10.1029/2018JA025345, 2018.
Zhang, B., P. A. Delamere, X. Ma, B. Burkholder, M. Wiltberger, J. G. Lyon, V. G. Merkin, and K. A. Sorathia, Asymmetric Kelvin-Helmholtz Instability at Jupiter’s Magnetopause Boundary: Implications for Corotation-Dominated Systems, Geophys. Res. Lett., 45, 56–63, doi10.1002/2017GL076315, 2018.

Dr. Martin Truffer

Professor, Physics Academic Advisor

Department Chair

mtruffer2@alaska.edu | 907-474-5359

401 Elvey Bldg

Special Interests/Research: Glacier dynamics, subglacial processes, ice-ocean interaction, fast glacier flow, geophysical applications to glaciology, hot water drilling, numerical modeling, geophysical inverse methods.

Learn more about Dr. Martin Truffer

Selected Publications

Ochwat, N.E., T.A. Scambos, A.F. Banwell, R.S. Anderson, M.L. Maclennan, G. Picard, J.A. Shates, S. Marinsek, L. Margonari, M. Truffer, and E.C. Pettit. 2024. “Triggers of the 2022 Larsen B Multi-Year Landfast Sea Ice Breakout and Initial Glacier Response.” The Cryosphere 18 (4): 1709–31. .
Alley, K.E., R.B. Alley, A.D. Crawford, N. Ochwat, C.T. Wild, J. Marson, T. Snow, A. Muto, E.C. Pettit, S.F. Child, M. Truffer, G. Collao-Barrios and T.A. Scambos. 2024. “Evolution of Sub-Ice-Shelf Channels Reveals Changes in Ocean-Driven Melt in West Antarctica.” Journal of Glaciology, March, 1–15. .
Hock, R., and M. Truffer. 2024. “Glacier Hazards: Will They Change in the Future?” Arctic, Antarctic, and Alpine Research 56 (1): 2335991. .
Wild, Christian T., Samuel B. Kachuck, Adrian Luckman, Karen E. Alley, Meghan A. Sharp, Haylee Smith, Scott W. Tyler, et al. 2024. “Rift Propagation Signals the Last Act of the Thwaites Eastern Ice Shelf despite Low Basal Melt Rates.” Journal of Glaciology, September, 1–18. .
Tober, Brandon S., Michael S. Christoffersen, John W. Holt, Martin Truffer, and Christopher F. Larsen. 2024. “Thickness of Ruth Glacier, Alaska, and Depth of Its Great Gorge from Ice-Penetrating Radar and Mass Conservation.” Journal of Glaciology, October, 1–10. .
Polashenski, David, Martin Truffer, and William Henry Armstrong. 2024. “Reduced Basal Motion Responsible for 50 Years of Declining Ice Velocities on Athabasca Glacier.” Journal of Glaciology, October, 1–13. .
Tober, B. S., J. W. Holt, M. S. Christoffersen, M. Truffer, C. F. Larsen, D. J. Brinkerhoff, and S. A. Mooneyham. 2023. “Comprehensive Radar Mapping of Malaspina Glacier (Sít’ Tlein), Alaska—The World’s Largest Piedmont Glacier—Reveals Potential for Instability.” Journal of Geophysical Research: Earth Surface 128, no. 3 (March 2023): e2022JF006898.
Amundson, J. M., Truffer, M., & Zwinger, T. (2022). Tidewater glacier response to individual calving events. Journal of Glaciology, 1–10.
Khan, S. A., Bamber, J. L., Rignot, E., Helm, V., Aschwanden, A., Holland, D. M., Broeke, M., King, M., Noël, B., Truffer, M., Humbert, A., Colgan, W., Vijay, S., & Munneke, P. K. (2022). Greenland mass trends from airborne and satellite altimetry during 2011‐2020. Journal of Geophysical Research: Earth Surface, 1–20.
Armstrong, W. H., D, Polashenski, M. Truffer, G. Horne, J. B. Hanson, R. L. Hawley, A. M. Hengst, L. Vowels, B. Menounos, and W. Van Wychen. 2022. “Declining Basal Motion Dominates the Long‐Term Slowing of Athabasca Glacier, Canada.” Journal of Geophysical Research: Earth Surface 127 (10): e2021JF006439. .
Dotto, T. S., K. J. Heywood, R. A. Hall, T. A. Scambos, Y. Zheng, Y. Nakayama, S. Hyogo, et al. 2022. “Ocean Variability beneath Thwaites Eastern Ice Shelf Driven by the Pine Island Bay Gyre Strength.” Nature Communications 13 (1): 7840. .
Kneib, M., E. S. Miles, P. Buri, S. Fugger, M. McCarthy, T. E. Shaw, Z. Chuanxi, et al. 2022. “Sub-Seasonal Variability of Supraglacial Ice Cliff Melt Rates and Associated Processes from Time-Lapse Photogrammetry.” The Cryosphere, April. .
Cassotto, R. K., Burton, J. C., Amundson, J. M., Fahnestock, M. A., & Truffer, M. (2021). Granular decoherence precedes ice mélange failure and glacier calving at Jakobshavn Isbræ. Nature Geoscience, 14(6), 417–422.
MacGregor, J. A., Boisvert, L. N., Medley, B., Petty, A. A., Harbeck, J. P., Bell, R. E., Blair, J. B., Blanchard-Wrigglesworth, E., Buckley, E. M., Christoffersen, M. S., Cochran, J. R., Csathó, B. M., De Marco, E. L., Dominguez, R. A. T., Fahnestock, M. A., Farrell, S. L., Gogineni, S. P., Greenbaum, J. S., Hansen, C. M., … Yungel, J. K. (2021). The Scientific Legacy of NASA’s Operation IceBridge. Reviews of Geophysics, 59(2), 1–65.
Loso, M. G., Larsen, C. F., Tober, B. S., Christoffersen, M., Fahnestock, M., Holt, J. W., & Truffer, M. (2021). Quo vadis, Alsek? Climate-driven glacier retreat may change the course of a major river outlet in southern Alaska. Geomorphology, 384, 107701.
McNeil, C., Amundson, J., O’Neel, S., Motyka, R., Sass, L., Truffer, M., Zechmann, J., & Campbell, S. (2021). The Imminent Calving Retreat of Taku Glacier. Eos, 102, 1–10.
Cook, S. J., Christoffersen, P., Truffer, M., Chudley, T. R., & Abellán, A. (2021). Calving of a large Greenlandic tidewater glacier has complex links to meltwater plumes and mélange. Journal of Geophysical Research: Earth Surface, 1–16.
Hansen, K., Truffer, M., Aschwanden, A., Mankoff, K., Bevis, M., Humbert, A., Broeke, M. R., Noël, B., Bjørk, A., Colgan, W., Kjær, K. H., Adhikari, S., Barletta, V., & Khan, S. A. (2021). Estimating Ice Discharge at Greenland’s Three Largest Outlet Glaciers Using Local Bedrock Uplift. Geophysical Research Letters, 48(14), 1–10.
Wild, C., Alley, K., Muto, A., Truffer, M., Scambos, T., & Pettit, E. (2021). Weakening of the pinning point buttressing Thwaites Glacier, West Antarctica. Cryosphere, 1–28.
Aschwanden, A., Bartholomaus, T. C., Brinkerhoff, D. J., & Truffer, M. (2021). Brief communication: A roadmap towards credible projections of ice sheet contribution to sea level. The Cryosphere, 15(12), 5705–5715.
Alley, K. E., Wild, C. T., Luckman, A., Scambos, T. A., Truffer, M., Pettit, E. C., Muto, A., Wallin, B., Klinger, M., Sutterley, T., Child, S. F., Hulen, C., Lenaerts, J. T. M., Maclennan, M., Keenan, E., & Dunmire, D. (2021). Two decades of dynamic change and progressive destabilization on the Thwaites Eastern Ice Shelf. Cryosphere, 15(11), 5187–5203.
Carr, C. G., Carmichael, J. D., Pettit, E. C., & Truffer, M. (2020). The influence of environmental microseismicity on detection and interpretation of small-magnitude events in a polar glacier setting. Journal of Glaciology, 1–17. https://doi.org/10.1017/jog.2020.48
Moon, T., Scambos, T., Abdalati, W., Ahlstrøm, A. P., Bindschadler, R., Gambill, J., Heimbach, P., Hock, R., Langley, K., Miller, I., & Truffer, M. (2020). Ending a Sea of Confusion: Insights and Opportunities in Sea-Level Change Communication. Environment, 62(5), 4–15.
Lundesgaard, Ø., Winsor, P., Truffer, M., Merrifield, M., Powell, B., Statscewich, H., … Smith, C. R. (2019). Hydrography and energetics of a cold subpolar fjord: Andvord Bay, western Antarctic Peninsula. Progress in Oceanography, 102224. 10.1016/j.pocean.2019.102224
Aschwanden, A., M.A. Fahnestock, M. Truffer, D. Brinkerhoff, R. Hock, C. Khroulev, R. Mottram, and S.A. Khan. (2019). Contribution of the Greenland Ice Sheet to sea level over the next millennium. Science Advances, 5(6), doi: 10.1126/sciadv.aav9396.
Cape, M.R., M. Vernet, E.C. Pettit, J. Wellner, M. Truffer, G. Akie, E. Domack, A. Leventer, C.R. Smith, and B.A. Huber. (2019). Circumpolar Deep Water Impacts Glacial Meltwater Export and Coastal Biogeochemical Cycling Along the West Antarctic Peninsula. Frontiers in Marine Science, 6(March), 1–23. doi:10.3389/fmars.2019.00144
Kienholz, C., J.M. Amundson, R. Motyka, R.H. Jackson, J.B. Mickett, D.A. Sutherland, J.D. Nash, D.S. Winters, W.P. Dryer, and M. Truffer. (2019). Tracking icebergs with time-lapse photography and sparse optical flow , LeConte Bay , Alaska , 2016 – 2017. J. Glaciol., 65, 195–211. doi:10.1017/jog.2018.105.
Moyer, A.N., P.W. Nienow, N. Gourmelen, A.J. Sole, M. Truffer, M.A. Fahnestock, and D.A. Slater. (2019). Spatio-temporal variations in seasonal ice tongue submarine melt rate at a tidewater glacier in southwest Greenland. J. Glaciol., 1–8. .
Wellner, J., Scambos, T., Domack, E., Vernet, M., Leventer, A., Balco, G., Brachfeld, S., Cape, M.R., Huber, B., Ishman, S., McCormick, M.L., Mosley-Thompson, E., Pettit, E., Smith, C.R., Truffer, M., Van Dover, C. and Yoo, K.-C. (2019). The Larsen Ice Shelf System, Antarctica (LARISSA): Polar Systems Bound Together, Changing Fast. GSA Today, 29(8), 4–10.https://doi.org/10.1130/gsatg382a.1
Zechmann, J.M., A.D. Booth, M. Truffer, A. Gusmeroli, J.M. Amundson, and C.F. Larsen (2018) Active seismic studies in valley glacier settings: strategies and limitations. J. Glaciol., 1–15. doi:10.1017/jog.2018.69
Cassotto, R., M. Fahnestock, J. Amundson, M. Truffer, M. Boettcher, S. De La Peña, and I. Howat. (2018) Non-linear glacier response to calving events, Jakobshavn Isbrae, Greenland. J. Glaciol., 1-16, doi:10.1017/jog.2018.90.
Kienholz, C., R. Hock, M. Truffer, P. Bieniek and R. Lader (2017). Mass Balance Evolution of Black Rapids Glacier, Alaska, 1980–2100, and Its Implications for Surge Recurrence. Frontiers in Earth Science, 5(July), 56.
Brinkerhoff, D., M. Truffer, and A. Aschwanden (2017). Sediment transport drives tidewater glacier periodicity. Nat. Comms, 8(1), 90. (doi.org/10.1038/s41467-017-00095-5)
Voytenko, D., T.H. Dixon, D.M. Holland, R. Cassotto, I.M. Howat, M.A. Fahnestock, M. Truffer and S. De La Pena (2017). Acquisition of a 3 min, two-dimensional glacier velocity field with terrestrial radar interferometry. J. Glaciol., 1–8.
Habermann, M., M. Truffer, and D. Maxwell (2017). Error sources in basal yield stress inversions for Jakobshavn Isbrae, Greenland, derived from residual patterns of misfit to observations. J. Glaciol., 63(242). doi:10.1017/jog.2017.61.
Motyka RJ, Cassotto R, Truffer M, Kjeldsen KK, Van As D, Korsgaard NJ, Fahnestock M, Howat I, Langen PL, Mortensen J, Lennert K and Rysgaard S (2017). Asynchronous behavior of outlet glaciers feeding Godthåbsfjord (Nuup Kangerlua) and the triggering of Narsap Sermia's retreat in SW Greenland. J. Glaciol. 63(238), 288-308.
Brinkerhoff, D.J., Aschwanden, A., and Truffer, M. (2016). Bayesian Inference of Subglacial Topography Using Mass Conservation. Frontiers in Earth Science, 4, 1–27. doi:10.3389/feart.2016.00008
Smith, JA, Andersen TJ, Shortt M, Gaffney AM, Truffer M, Stanton TP, Bindschadler R, Dutrieux P, Jenkins A, Hillenbrand C-D, Ehrmann W, Corr HFJ, Farley N, Crowhurst S and Vaughan DG (2016) Sub-ice-shelf sediments record history of twentieth-century retreat of Pine Island Glacier. Nature (doi:10.1038/nature20136).
Kienholz, C., R. Hock, M. Truffer, A. A. Arendt, and S. Arko (2016), Geodetic mass balance of surge-type Black Rapids Glacier, Alaska, 1980–2001–2010, including role of rockslide deposition and earthquake displacement, J. Geophys. Res. Earth Surf., 121, 2358–2380, doi:10.1002/2016JF003883.
Christianson, K, Bushuk M, Dutrieux P, Parizek BR, Joughin IR, Alley RB, Shean DE, Abrahamsen EP, Anandakrishnan S, Heywood KJ, Kim T-W, Lee SH, Nicholls K, Stanton T, Truffer M, Webber BGM, Jenkins A, Jacobs S, Bindschadler R, Holland DM (2016), Sensitivity of Pine Island Glacier to observed ocean forcing, Geophys. Res. Lett., 43, 10,817–10,825, doi:10.1002/2016GL070500.
Brinkerhoff D, Meyer C, Bueler E, Truffer M, and Bartholomaus T (2016) Inversion of a glacier hydrology model. Ann. Glaciol., 57(72), doi: 10.1017/aog.2016.
Herreid S and Truffer M (2016) Automated detection of unstable glacier flow and a spectrum of speedup behavior in the Alaska Range. J. Geophys. Res. 121(1), 64-81 (doi:10.1002/2015JF003502)
Aschwanden A, Fahnestock MA and Truffer M (2016) Complex Greenland outlet glacier flow captured. Nat. Comm. 7 (doi:10.1038/ncomms10524)
Pilloud MA, Megyesi MS, Truffer M and Congram D (2016) The taphonomy of human remains in a glacial environment. For. Sc. Int. 261 (doi:10.1016/j.forsciint.2016.01.027)
Truffer M and Motyka MJ (2016) Where glaciers meet water: Subaqueous melt and its relevance to glaciers in various settings. Rev. Geophys. 54(1), 220-239 (doi:1002/2015RG000494).
2015

Dr. David Newman (Retired from teaching 2022)

Professor

denewman@alaska.edu | 907-474-7858

112 Reichardt Bldg

Special Interests/Research: Complex systems, turbulence, nonlinear dynamics and fusion plasma physics

Learn more about Dr. David Newman (Retired from teaching 2022)

Selected Publications

JA Mier, R Sánchez, D.E. Newman, Chaos, Solitons & Fractals 140, 110117, (2020), Tracer particle transport dynamics in the diffusive sandpile cellular automaton.
JM Reynolds-Barredo, D.E. Newman, BA Carreras Electric Power Systems Research 182, 106260, (2020), Optimized implementation of power dispatch in the OPA model and its implications for dispatch sensitivity for the WECC power network
B Carreras, JM Reynolds-Barredo, D. Newman, Proceedings of the 53rd Hawaii International Conference on System Sciences, (2020), The Impact of Incorporating Wind Energy in the Electric Grid
Benjamin A. Carreras, José M. Reynolds-Barredo, Ian Dobson, and David E. Newman, Critical behavior of power transmission network complex dynamics in the OPA model, Chaos 29, 033103 (2019);
Benjamin A Carreras, Jose M Reynolds-Barredo, Ian Dobson, David E Newman, Validating the OPA cascading blackout model on a 19402 bus transmission network with both mesh and tree structures, in IEEE Explore, Fifty Second Hawaii International Conference on System Sciences, Hawaii, January 2019
R Sánchez, DE Newman, JA Mier, Modeling transport across the running-sandpile cellular automaton by means of fractional transport equations, Physical Review E 97 (5), 052123
R Sánchez, DE Newman, A Primer on Complex Systems: With Applications to Astrophysical and Laboratory Plasmas (Lecture Notes in Physics), Lecture Notes in Physics (Book 943) , 404 pages, Springer; 1st ed. 2018 edition (April 1, 2018) ISBN-10: 9402412271
D Ogata, DE Newman, R Sánchez, Transport dynamics of self-consistent, near-marginal drift-wave turbulence. II. Characterization of transport by means of passive scalars, Physics of Plasmas 24 (7), 072310 (2017)
D Ogata, DE Newman, R Sánchez, Transport dynamics of self-consistent, near-marginal drift-wave turbulence. I. Investigation of the ability of external flows to tune the non-diffusive dynamics, Physics of Plasmas 24 (7), 072309 (2017)
D Ogata, DE Newman, R Sánchez, Investigation of the interaction between competing types of nondiffusive transport in drift wave turbulence, Physics of Plasmas 24 (5), 052307 (2017)
I Dobson, D.E. Newman, Cascading blackout overall structure and some implications for sampling and mitigation, International Journal of Electrical Power & Energy Systems 86, 29-32 (2017)

Dr. Renate Wackerbauer

Professor, Physics Academic Advisor

rawackerbauer@alaska.edu | 907-474-6108

106 Reichardt Bldg

Special Interests/Research: Complex temporal and spatiotemporal dynamics, Stochastic dynamical systems, Nonlinear time series analysis and Modeling of biological systems: coupled (biological) oscillators/circadian rhythms/neuron dynamics

Learn more about Dr. Renate Wackerbauer

Selected Publications

S Awender, R Wackerbauer, and G Breed, Combining generalized modeling and specific modeling in the analysis of ecological networks, CHAOS 33, 033130 (2023)
S Awender, R Wackerbauer, and G Breed, Stability of generalized ecological-network models, CHAOS 31, 023106 (2021)
O. Steinbock, R Wackerbauer, and D. Horvath, Nonlinear chemical dynamics and its interdisciplinary impact: dedicated to Ken Showalter on the occasion of his 70th birthday, Chaos 29, 080401, 2019
V Kaminker (PhD student) and R Wackerbauer, Alternating activity patterns and a chimeralike state in a network of globally coupled excitable Morris-Lecar neurons, Chaos 29, 053121, 2019.
H Hartle (UG student) and R Wackerbauer, Transient chaos and system-intrinsic switching of spacetime patterns in two synaptically coupled layers of Morris-Lecar neurons, Phys. Rev. E 96, 032223, 2017.
J Lafranceschina and R Wackerbauer, Impact of weak excitatory synapses on chaotic transients in a diffusively coupled Morris-Lecar neuronal network, Chaos 25, 013119, 2015
K Keplinger and R Wackerbauer, Transient spatiotemporal chaos in the Morris-Lecar neuronal ring network, Chaos 24, 013126, 2014.
M Mueller-Stoffels and R Wackerbauer, Albedo parameterization and reversibility of sea ice decay, Nonlinear Processes in Geophysics 19, 81-94 (2012).
D Stahlke (graduate student) and R Wackerbauer, Length scale of interaction in spatiotemporal chaos, Phys. Rev. E 83, 046204 (2011).
M Mueller-Stoffels (graduate student) and R Wackerbauer, Regular network model for the sea ice-albedo feedback in the Arctic, Chaos 21, 013111 (2011).
D Stahlke (graduate student) and R Wackerbauer, Transient spatiotemporal chaos is extensive in three reaction-diffusion networks, Phys. Rev. E 80, 056211 (2009).
R Wackerbauer, Master stability analysis in transient spatiotemporal chaos, Phys. Rev. E 76, 056207 (2007).
R Wackerbauer and S Kobayashi (undergraduate student), Noise can delay and advance the collapse of spatiotemporal chaos, Phys. Rev. E 75, 066209 (2007).
S Yonker (graduate student) and R Wackerbauer, Nonlocal coupling can prevent the collapse of spatiotemporal chaos, Phys. Rev. E 73, 026218 (2006).

Dr. Mark Conde

Associate Professor, Physics Academic Advisor

mgconde@alaska.edu | 907-474-7741

706F Elvey Bldg

Special Interests/Research: Auroral processes and space weather

Dr. Ataur Chowdhury

Associate Professor, Physics Academic Advisor

archowdhury@alaska.edu | 907-474-6109

118 Reichardt Bldg

Special Interests/Research: Condensed Matter physics, nanotechnology

Learn more about Dr. Ataur Chowdhury

Dr. Michael Hull

Assistant Professor of Physics, Physics Academic Advisor

mmhull2@alaska.edu | 907-474-6106

120 Reichardt Bldg

Special Interests/Research: Patterns and variability in student reasoning; improving the effectiveness of online asynchronous physics instruction; assessing and improving student interest in physics.

Learn more about Dr. Michael Hull

Peer Reviewed Publications:

Hull, M. M. & Pokharel, K. R. (2024) Learning about Radioactivity via Synthetic Groupwork in Introductory Physics. PERC 2024 Proceedings.
Yasuda, J.-i., Hull, M. M., & Kojima, K. (2024) Designing a computerized adaptive testing chain for the Force Concept Inventory. PERC 2024 Proceedings.
Becker, M. and Hull, M. M. (2024) Thermische Energie mit dem BB-Bag veranschaulichen. In Hopf, M. January 2024 issue of Plus Lucis: Energie.
Hull, M. M., Budimaier, F., & Krebs, R. E. (2024) Half-life and Lifeworld: The Omission of School Knowledge in Writing about Radioactive Waste. International Journal of Physics and Chemistry Education.
Hull, M. M., Yasuda, J.-i., and Mae, N. (2024) A Methodology for Generating Subquestions for the Force Concept Inventory (and Other Research-Based Assessments). International Journal of Physics and Chemistry Education.
Yasuda, J.-i., Hull, M. M., & Mae, N. (2023) Visualizing depth of student conceptual understanding using subquestions and alluvial diagrams. Physical Review Physics Education Research.

Other Publications and Presentations:

Hull, M. M. and Pokharel, K. R. (2024) Responsive Instruction About Radioactivity Through Synthetic Groupwork. Contributed Talk given at 2024 AAPT.
Pokharel, K. R. and Hull, M. M. (2024) Exploring the Effectiveness of an Inquiry-based Radioactivity Lab in Boosting Student interest in Physics. Contributed Talk given at 2024 AAPT.
Hull, M. M. & Pokharel, K. R. (2024) Learning about Radioactivity via Synthetic Groupwork in Introductory Physics. Contributed Poster presented at 2024 PERC.
Pokharel, K. R. and Hull, M. M. (2024) Exploring the Impact of an Inquiry-Based Radioactivity Lab on Individual Student Interest in Physics. Contributed Poster presented at 2024 PERC.
Yasuda, J.-i., Hull, M. M., & Kojima, K. (2024) Designing a computerized adaptive testing chain for the Force Concept Inventory. Contributed Poster presented at 2024 PERC

Dr. Doğacan Ozturk

Assistant Professor

dsozturk@alaska.edu

706A, Elvey Building

Special Interests/Research: Studies the coupled magnetosphere-ionosphere-thermosphere systems using numerical models and data analysis.

Learn more about Dr. Doğacan Ozturk

Xu, Zhonghua; Lessard, Marc; Kim, Hyomin; Hartinger, Michael; Deng, Yue; Welling, Daniel; Öztürk, Doğacan; Chi, Peter; Halford, Alexa; Turner, Drew; A Strategic Vision for Understanding Inter-Hemispheric Asymmetries, The Bulletin of the American Astronomical Society (2023), The Bulletin of the American Astronomical Society (BAAS)
Hartinger, Michael; Engebretson, Mark; Lu, Gang; Connors, Martin; McGranaghan, Ryan; Rigler, Josh; Shi, Xueling; Weygand, James; Schultz, Adam; Kim, Hyomin; Global Networks of Ground-Based Magnetometers Enable Cutting-Edge Heliophysics Research, Education, and Space Weather Operations, Bulletin of the AAS, 55, 3 (2023), American Astronomical Society
Ozturk, Dogacan; Lin, Dong; Gabrielse, Christine; Chen, Margaret; Grandin, Maxime; Sivadas, Nithin; Robinson, Robert; Garcia-Sage, Katherine; Damiano, Peter; Blum, Lauren; The Significance of Magnetospheric Precipitation for the Coupling of Magnetosphere-Ionosphere-Thermosphere Systems: Sources and Properties, Bulletin of the AAS (2023), Bulletin of the American Astronomical Society
Argall, Matthew; McGranaghan, Ryan; Smith, Andy; Klein, Kristopher; Bortnik, Jacob; Chen, Thomas Y; Ozturk, Dogacan; Hwang, Kyoung-Joo; Azari, Abigail; Keesee, Amy; Intelligent Missions in the Living Heliospheric System Observatory, Bulletin of the American Astronomical Society, 55, 3, 16 (2023)
Perry, Gareth; Ozturk, Dogacan Su; Cooper, Matthew; Kim, Hyomin; Ledvina, Vincent; Battams, Karl; Brandt, Laura; Musset, Sophie; Gallardo-Lacourt, Bea; Citizen science is a catalyst for scientific discovery in heliophysics, Bulletin of the American Astronomical Society, 55, 3, 314 (2023)
Zettergren, Matthew; Ozturk, Dogacan; Liu, Hanli; Huba, Joe; Deng, Yue; Snively, Jonathan; Fang, Tzu-Wei; Ridley, Aaron; Maute, Astrid; Zawdie, Kate; Physics-based Ionosphere-Thermosphere-Mesosphere Modeling: Status and Future Needs, Bulletin of the American Astronomical Society, 55, 3, 26 (2023)
Battams, Karl; Ozturk, Dogacan; Sanka, Ramanakumar; Mantha, Kameswara Bharadwaj; Sustainability Support for Heliophysics Citizen Science Projects, Bulletin of the American Astronomical Society, 55, 3, 26 (2023)
Vines, Sarah; Anderson, Brian; Waters, Colin L; Allen, Robert C; Maute, Astrid; Kunduri, Bharat; Paxton, Larry; Strangeway, Robert J; Lin, Dong; Robinson, Robert; Beyond ampere‐next: Envisioning the next system of global high‐latitude electrodynamics, Bulletin of the American Astronomical Society, 55, 3, 420 (2023)
MacDonald, Elizabeth; Halford, Alexa; Ledvina, Vincent; Rowland, Douglas; Ozturk, Dogacan; di Mare, Francesca; Brandt, Laura; Mooney, Margaret; Lach, Donna; Kim, Hyomin; Science for all: the case for citizen science in all NASA missions, Bulletin of the American Astronomical Society, 55, 3, 255 (2023).
Ozturk, Dogacan; Lin, Dong; Gabrielse, Christine; Chen, Margaret; Grandin, Maxime; Sivadas, Nithin; Robinson, Robert; Garcia-Sage, Katherine; Damiano, Peter; Blum, Lauren; The Significance of Magnetospheric Precipitation for the Coupling of Magnetosphere-Ionosphere-Thermosphere Systems: Effects on Ionospheric Conductance, Bulletin of the AAS (2023), Bulletin of the American Astronomical Society
Smith, AR; Ozturk, DS; Delamere, P; Lu, G; Kim, H; Investigating the interhemispheric asymmetry in Joule heating during the 2013 St. Patrick's Day geomagnetic storm, Space Weather, 21, 9, e2023SW003523 (2023)
Noh, Sung Jun; Kim, Hyomin; Ozturk, Dogacan; Kuzichev, Ilya; Xu, Zhonghua; Zhang, Hui; Vu, Andrew; Liu, Terry; Weygand, James M; Hartinger, Michael D; Interhemispheric observations of ULF waves caused by foreshock transients under quiet solar wind conditions, Journal of Geophysical Research: Space Physics, 128, 9, e2023JA031596 (2023)
Meng, Xing; Ozturk, Dogacan S; Verkhoglyadova, Olga P; Varney, Roger H; Reimer, Ashton S; Semeter, Joshua L; Kaeppler, Stephen R; Zhan, Weijia; Energy Deposition by Mesoscale High‐Latitude Electric Fields Into the Thermosphere During the 26 October 2019 Geomagnetic Storm, Journal of Geophysical Research: Space Physics, 127, 12, e2022JA030716 (2022)
Le, Guan; Knipp, Delores J; Rastätter, Lutz; Lu, Gang; Ozturk, Dogacan Su; Slavin, James A; Maute, Astrid; Klenzing, Jeffrey; Zou, Shasha; Espley, Jared R; Next generation magnetic field measurements from low-earth orbit satellites enable enhanced space weather operations, Frontiers in Astronomy and Space Sciences, 9, 1076892 (2022), Frontiers Media SA
Blandin, Matthew; Connor, Hyunju K; Öztürk, Doğacan S; Keesee, Amy M; Pinto, Victor; Mahmud, Md Shaad; Ngwira, Chigomezyo; Priyadarshi, Shishir; Multi-variate LSTM prediction of Alaska magnetometer chain utilizing a coupled model approach, Frontiers in Astronomy and Space Sciences, 9, 846291, (2022), Frontiers Media SA.
McMillan, Kiara L; Öztürk, Doğacan S; Acar, Pinar; Inverse design of 2d-mechanical metamaterials with spinodal topologies under uncertainty, AIAA SCITECH 2022 Forum, 811, (2022)
Sokolov, Igor V; van der Holst, Bart; Manchester, Ward B; Ozturk, Dogacan Su; Szente, Judit; Taktakishvili, Aleksandre; Tóth, Gábor; Jin, Meng; Gombosi, Tamas I; Threaded-field-line Model for the Low Solar Corona Powered by the Alfvén Wave Turbulence, The Astrophysical Journal, 908, 2, 172 (2021), IOP Publishing
Ozturk, DS; Meng, X; Verkhoglyadova, OP; Varney, RH; Reimer, AS; Semeter, JL; A new framework to incorporate high‐latitude input for mesoscale electrodynamics, Journal of Geophysical Research: Space Physics, 125, 1, e2019JA027562 (2020)
Poh, Gangkai; Slavin, James A; Lu, San; Le, Guan; Ozturk, Dogacan Su; Sun, Wei‐Jie; Zou, Shasha; Eastwood, Jonathan P; Nakamura, Rumi; Baumjohann, Wolfgang; Dissipation of earthward propagating flux rope through re‐reconnection with geomagnetic field: An MMS case study, Journal of Geophysical Research: Space Physics, 124, 9, 7477-7493 (2019)
Ozturk, DS; Zou, S; Ridley, AJ; Slavin, JA; Modeling study of the geospace system response to the solar wind dynamic pressure enhancement on 17 March 2015, Journal of Geophysical Research: Space Physics, 123, 4, 2974-2989 (2018)
Zou, Shasha; Ozturk, Dogacan; Varney, Roger; Reimer, Ashton; Effects of sudden commencement on the ionosphere: PFISR observations and global MHD simulation, Geophysical Research Letters, 44, 7, 3047-3058 (2017)
Ozturk, Dogacan Su; Zou, Shasha; Slavin, James A; IMF By effects on ground magnetometer response to increased solar wind dynamic pressure derived from global MHD simulations, Journal of Geophysical Research: Space Physics, 122, 5, 5028-5042 (2017)
Haiducek, John D; Welling, Daniel T; Ganushkina, Natalia Y; Morley, Steven K; Ozturk, Dogacan Su; SWMF global magnetosphere simulations of January 2005: Geomagnetic indices and cross‐polar cap potential, Space Weather, 15, 12, 1567-1587 (2017)
Tenishev, Valeriy; Öztürk, Doğacan Su; Combi, Michael R; Rubin, Martin; Waite, Jack Hunter; Perry, Mark; Effect of the Tiger Stripes on the water vapor distribution in Enceladus' exosphere; Journal of Geophysical Research: Planets, 119, 12, 2658-2667 (2014)
Menteş, Egemen; Öztürk, Doğacan Su; Bayar, Mertcan; Acar, Pınar; Nikbay, Melike; Reliability Based Design Optimization of Solar Array Structure for a Leo Nanosatellite (2013)

Dr. Chung-Sang Ng

Associate Professor, Physics Academic Advisor

cng2@alaska.edu | 907-474-7367

706E Elvey Building

Special Interests/Research: Theoretical and computational plasma physics, with applications in space and fusion plasmas

Learn more about Dr. Chung-Sang Ng

Selected Publications

J. McClung, M. Franciscovich, K. Germaschewski, and C. S. Ng, High-Resolution Particle-In-Cell Simulations of Two-Dimensional Bernstein-Greene-Kruskal Modes, Physics of Plasmas, 31, 042302 (2024).
Z.-K. Xie, Q.-G. Zong, C. Yue, X.-Z. Zhou, Z.-Y. Liu, J.-S. He, Y.-X. Hao, C. S. Ng, H. Zhang, S.-T. Yao, C. Pollock, G, Le, R. Ergun & P.-A. Lindqvist, Electron Scale Coherent Structure as Micro Accelerator in the Earth’s Magnetosheath, Nature Communications, 15, 886 (2024).
P. A. Damiano, P. A. Delamere, E.-H. Kim, J. R. Johnson, and C. S. Ng, Electron Energization by Inertial Alfvén Waves in Density Depleted Flux Tubes at Jupiter, Geophysical Research Letters, 50, e2022GL102467 (2023).
D. Coffin, P. A. Damiano, P. A. Delamere, J. R. Johnson, and C. S. Ng, Broadband Energization of Superthermal Electrons in Jupiter’s Inner Magnetosphere, Journal of Geophysical Research, 127, e2022JA030528 (2022).
C. S. Ng, B. R. Neupane, P. A. Delamere, and P. A. Damiano, A Turbulent Heating Model Combining Diffusion and Advection Effects for Giant Planet Magnetospheres, Geophysical Research Letters, 49, e2021GL096662 (2022).
C. S. Ng, and A. Bhattacharjee, Landau Modes are Eigenmodes of Stellar Systems in the Limit of Zero Collisions, Astrophys. J., 923, 271 (2021).
B. R. Neupane, P. A. Delamere, X. Ma, C. S. Ng, B. L. Burkholder, and P. A., Damiano, On The Nature of Turbulent Heating and Radial Transport in Saturn's Magnetosphere, Journal of Geophysical Research, 126, e2020JA027986 (2021).
P. A. Delamere, C. S. Ng, P. A., Damiano, B. R. Neupane, J. R. Johnson, B. L. Burkholder, X. Ma, and K. Nykyri, Kelvin–Helmholtz‐Related Turbulent Heating at Saturn's Magnetopause Boundary, Journal of Geophysical Research, 126, e2020JA028479 (2021).
C. S. Ng, Kinetic Flux Ropes: Bernstein-Greene-Kruskal Modes for the Vlasov-Poisson-Ampère System, Physics of Plasmas, 27, 022301 (2020).
Burkholder, B. L., P. A. Delamere, J. R. Johnson, and C. S. Ng, Identifying Active Kelvin- Helmholtz Vortices on Saturn’s Magnetopause Boundary, Geophys. Res. Lett., 47(1), e84206, doi10.1029/2019GL084206, 2020.
Kaminker, V., P. A. Delamere, C. S. Ng, T. Dennis, A. Otto, and X. Ma, Local time dependence of turbulent magnetic fields in Saturn’s magnetodisc, Journal of Geophysical Research (Space Physics), 122, 3972– 3984, doi10.1002/2016JA023834, 2017.
C. S. Ng and L. Lin, Distribution of Nanoflares as Spatially Resolved Current Sheets in the Solar Corona, ASP Conf. Ser., 484, 162 (2014).
L. Lin, C. S. Ng, and A. Bhattacharjee, Current Sheet Statistics in Three-Dimensional Simulations of Coronal Heating, ASP Conf. Ser., 474, 159 [http://arxiv.org/abs/1302.0567] (2013).
C. Black, K. Germaschewski, A. Bhattacharjee, and C. S. Ng, Discrete Kinetic Eigenmode Spectra of Electron Plasma Oscillations in Weakly Collisional Plasma: A Numerical Study, Phys. Plasmas, 20, 012125 (2013).
A. S. Bains, M. Tribeche, and C. S. Ng, Dust-acoustic wave modulation in the presence of q-nonextensive electrons and/or ions in dusty plasma, Astrophys. Space Sci, 343, 621 (2013).
L. Lin, C. S. Ng, and A. Bhattacharjee, Large-Scale High-Lundquist Number Reduced MHD Simulations of the Solar Corona using GPU Accelerated Machines, accepted for publication in ASP Conference Series. [http://arxiv.org/abs/1109.6038] (2012).
A. R. Soto Chavez, A. Bhattacharjee, and C. S. Ng, Choros Wave Amplification: A Free Electron Laser in the Earth's Magnetosphere, Phys. Plasmas, 19, 010701 (2012).
C. S. Ng, L. Lin, and A. Bhattacharjee, High-Lundquist Number Scaling in Three-Dimensional Simulations of Parker’s Model of Coronal Heating, accepted for publication in Astrophys. J. [http://arxiv.org/abs/1106.0515] (2012).
C. S. Ng, S. J. Soundararajan, and E. Yasin, Electrostatic Structures in Space Plasmas: Stability of Two-dimensional Magnetic Bernstein-Greene-Kruskal Modes, accepted for publication in AIP Conf. Proc., [http://arxiv.org/abs/1106.4073] (2012).
C. S. Ng, and S. Ragunathan, High-Lundquist Number Resistive MHD Simulations of Turbulent Magnetic Reconnection with Secondary Island Formation and Enhanced Reconnection Rate, ASP Conference Series, 444, 124, [http://arxiv.org/abs/1106.0521], (2011).
C. S. Ng, A. Bhattacharjee, D. Munsi, P. A. Isenberg, and C. W. Smith, The Effect of Magnetic Turbulence Energy Spectra and Pickup Ions on the Heating of the Solar Wind, AIP Conf. Proc., 1302, 174 (2010).
C. S. Ng, L. Lin, and A. Bhattacharjee, Three-Dimensional Simulations of the Parker's Model of Solar Coronal Heating: Lundquist Number Scaling due to Random Photospheric Footpoint Motion, ASP Conference Series, 429, 201 (2010).
C. S. Ng and A. Bhattacharjee, Response to "Comment on 'Weakly collisional Landau damping and three-dimensional Bernstein-Greene-Kruskal modes: New results on old problems'", Phys. Plasmas 17, 054701 (2010).
C. S. Ng, A. Bhattacharjee, D. Munsi, P. A. Isenberg, and C. W. Smith, Kolmogorov versus Iroshnikov-Kraichnan spectra: Consequences for ion heating in the solar wind, J. Geophys. Res., 115, A02101 (2010).
X. H. Deng, M. Zhou, S. Y. Li, W. Baumjohann, M. Andre, N. Cornilleau, O. Santol?´k, D. I. Pontin, H. Reme, E. Lucek, A. N. Fazakerley, P. Decreau, P. Daly, R. Nakamura, R. X. Tang, Y. H. Hu, Y. Pang, J. Büchner, H. Zhao, A. Vaivads, J. S. Pickett, C. S. Ng, X. Lin, S. Fu, Z. G. Yuan, Z. W. Su, and J. F. Wang, Dynamics and waves near multiple magnetic null points in reconnection diffusion region, J. Geophys. Res., 114, A07216, doi:10.1029/2008JA013197 (2009).
C. S. Ng, D. Rosenberg, K. Germaschewski, A. Pouquet, and A. Bhattacharjee, A Comparison of spectral element and finite difference methods using statically refined nonconforming grids for the MHD island coalescence instability problem, ASP Conference Series, 406, 255 (2009).
C. S. Ng, D. Rosenberg, K. Germaschewski, A. Pouquet, and A. Bhattacharjee, A Comparison of Spectral Element and Finite Difference Methods Statically Refined Nonconforming Grids for the MHD Island Coalescence Instability Problem, Astrophys. J. Suppl., 177, 613 (2008).
C. S. Ng and A. Bhattacharjee, A Constrained Tectonics Model for Coronal Heating, Astrophys. J., 675, 899 (2008).
C. S. Ng, A. Bhattacharjee, S. Hu, Z. W. Ma, and K. Avinash, Generalizations of a nonlinear fluid model for void formation in dusty plasmas, Plasma Phys. Control. Fusion, 49, 1583 (2007).
C. S. Ng and A. Bhattacharjee, Anisotropic MHD Turbulence, AIP Conf. Proc., 932, 137 (2007).
K. Germaschewski, A. Bhattacharjee, and C. S. Ng, The Magnetic Reconnection Code: an AMR-based fully implicit simulation suite, ASP Conf. Ser., 359, 151 (2006).
C. S. Ng, A. Bhattacharjee, and F. Skiff, Weakly Collisional Landau Damping and Three-Dimensional Bernstein-Greene-Kruskal Modes: New Results on Old Problems, Phys. Plasmas, 13, 055903 (2006).
A. Bhattacharjee, C. S. Ng, K. Avinash, S. Hu, and Z. W. Ma, Nonlinear Theory and Simulation of Void Formation in Dusty Plasmas, AIP Conf. Proc. 799 145 (2005).
C. S. Ng and A. Bhattacharjee, Bernstein-Greene-Kruskal Modes in a Three-Dimensional Plasma, Phys. Rev. Lett., 95, 245004 (2005).
A. Bhattacharjee, K. Germaschewski, and C. S. Ng, Current Singularities: Drivers of Impulsive Reconnection, Phys. Plasmas, 12, 042305 (2005).

Dr. Wang Xu

Term Assistant Professor

wxu3@alaska.edu

110 Reichardt Bldg

Special interests/Research: Nuclear and Particle Physics, Compton light source and its application. (Future: Arctic Physics and its application)

Learn more about Dr. Wang Xu

Selected Publications

1.)“Transverse Asymmetry from the Qusiaelastic 3He(e, e’) Process and the Neutron Magnetic Form Factor,” W.Xu, et al Phys. Rev. Lett. 85, 2900 (2000). cited 97 times (SCI).

2.)“Polarization Measurements in High-Energy Deuteron Photodisintegration” K. Wijesooriya et al.Phys. Rev. Lett. 86, 2975 (2001).cited 38 times(SCI).

3.)“Precision Measurement of the spin-dependent Asymmetry in the Threshold Region of 3He(e,e’),” F.Xiong, D.Dutta, W.Xu et al, Phys. Rev. Lett. 87, 242501 (2001). cited 16 times (SCI).

4.)“Measurement of the elastic electromagnetic form-factor ratio pGEP/GMP via polarization trans fer”, O.Gayou et al., Phys. Rev. C64, 038202 (2001).cited 112 times(SCI).

5.)“New measurement of parity violation in elastic electron-proton scattering and implications for strange form factors.”Aniol KA et al, Phys. Lett. B 509 211-216 (2001).cited 81 times(SCI).

6.)“Q2 Evolution of the Generalized Gerasimov-Dreall-Hearn Integral for Neutron using a 3He Tar get”, M. Amarian, et al Phys. Rev. Lett. 89, 242301(2002). cited 47 times(SCI).

7.)“PWIA Extraction of the Neutron Magnetic Form Factor from Quasi-Elastic at Q2 = 0.3 to 0.6 (GeV/c)2”,W. Xu et al Phys. Rev. C 67, 012201(R) (2003). cited 44 times(SCI).

8.)“A high intensity beam line of γ-rays up to 22 MeV energy based on Compton backscattering”， Nuclear Instruments and Methods in Physics Research A 578, 457 (2007). cited 12 times(SCI).

9.)“An X-ray Source Based on Compton Backscattering of CO2 Laser and 100 MeV Electrons”， J.G. Chen, W. Xu, W. Guo et al. Nucl. Instr. Meth. A 580 (2007) 1184.

10.) “A Future Laser Compton Scattering (LCS) -Ray Source: SLEGS at SSRF”, Q. Y. PAN, W. XU, W. LUO, et al. Synchrotron Radiation News. 22 (2009) 11.

11.)“A potential photo-transmutation of fission product striggered by Compton backscattering photons”，J.G.Chen, W.Xu, H.W.Wang, et al. Nuclear Instruments and Methods in Physics Research A 599（2009）118.

12.)“A laser-Compton scattering prototype experiment at 100 MeV of Shanghai Institute of Appliedlinac Physics”，W.Luo, W.Xu Q.Y.Pan, et al. REVIEW OF SCIENTIFIC INSTRUMENT 81 （2010）013304.

13.)” An X-ray spectroscopy system and its application to the laser-Compton scattering experiments” W. Luo, W. Xu,et al., NUCL INSTRUM METH A624, 141(2010) .

14.) “X-ray generation from slanting laser–Compton scattering for future energy-tunable Shanghai Laser Electron Gamma Source” W. Luo,W. Xu et al., Appl Phys B101,761 (2010) .

15.) “A 4D Monte Carlo laser-Compton scattering simulation code for the characterization of the future energy-tunable SLEGS” W.Luo, W.Xu Q.Y.Pan, et al. NUCL INSTRUM METH A 660, 108 （2011）.

II)Publications-others:

16.)“(EC+b+) Decay of 130Ce,” S.W. Xu et al, Z. Phys. A 356, 35 (1996).

17.)“Weak (EC+b+) Decay Branch of 209Fr,” S.W. Xu et al, Z. Phys. A 354, 343 (1996).

18.)“(EC+b+) Decay of 129Ce,” S.W. Xu et al,Chin. Phys. Lett. 14, 344 (1997).

19.)“Reliability Study of Compton Polarimeter for BEPC,”K. Deng,R.C.Shang, S.J. Zhu, W.Xu et al, High Energy Physics and Nuclear Physics Vol.21, 289 (1997).(in Chinese)

20)“High energy angular distribution measurements of the exclusive deuteron photodisintegration reaction”, E.C. Scuttle et al Phys. Rev. C. 66, 042201(R)(2002)

21)“Polarization measurement in neutral pion photoproduction”, K. Wijesooriya et al Phys. Rev. C.66, 034614 (2002)

22.)“Cross Section Measurements of Charged Pion Photoproduction in Hydrogen and Deuterium”, L.Y.Zhu et al.Phy. Rev. Lett. 91, 022003(2003).

23.)“Nuclear Transparency with the n-->-p Process in 4He”, D.Dutta et al., Phys. Rev. C 68, 021001(R) (2003).

24.)“Parity-violating electroweak asymmetry in e-vector p scattering”, K. A. Aniol et al. Phys. Rev. C69, 065501 (2004)

25.)“Measurement of the Generalized Forward Spin Polarizabilities of the Neutron”, M. Amarian et al. Phys. Rev. Lett. 93, 152301 (2004);

26.)” Basic instrumentation for Hall A at Jefferson Lab”, J. Alcorn, et al., Nucl. Instru. Methods A522, 294-346 (2004).

27.)“Q2 Evolution of the Neutron Spin Structure Moments using a 3He Target”, M. Amarian, et al Phys. Rev. Lett. 92, 022301(2004).

28.)“High Resolution Search For Exotic Pentaquark Theta++, and Theta+ at Jefferson lab.” Haiyan Gao, Wang Xu Presented at YITP Workshop on “Multi-quark Hadrons: Four, Five and More?”, Feb. 2004, Kyoto, Japan. nucl-ex/0411013

29.)“Cross Section Measurements of Charged Pion Photoproduction in Hydrogen and Deuterium from 1.1 to 5.5 GeV”, L.Y.Zhu et al. Phys. Rev. C 71, 044603 (2005)

30.)“Laser-driven polarized H/D sources and targets”, B. Clasie, et al., Nucl. Instru. Methods A536, 260-265 (2005).

31.)“A new study for 16O(γ,α)12C at the energies of nuclear astrophysics interest: The inverse of key nucleosynthesis reaction 12C(α,γ)16O”， Nucl. Instr.and Meth.A 2007, Vol581, 866

32.)“Extraction of the Neutron Magnetic Form Factor from Quasi-Elastic 3He(e, e)at Q2 = 0.1 − 0.6 (GeV/c)2”, B. Anderson et al. (E95-001 Collaboration), Phys.Rev. C 75, 034003 (2007).

33.)“Measurement of the proton electric to magnetic form factor ratio from p(e, ep)”，C. Crawford et al., Phys. Rev. Lett. 98, 052301 (2007).

34.)“Extraction of the neutron magnetic form factor from quasielastic 3He(e, e’) at Q2 = 0.1–0.6 (GeV/c)2”, B.Anderson, L.Auberbach, T.Averett, et al. Phys.Rev. C 75(2007)34003

35.)“Angular Dispersion and Deflection Function for Heavy Ion Elastic Scattering”, BAI Zhen， WANG Qi，HAN Jian-Long , et al. CHIN.PHYS.LETT. 24 (2007) 3384.

36.) “Measurement of the Proton’s Electric to Magnetic Form Factor Ratio from 1H(e, e’p)”, C. B. Crawford, A. Sindile, T. Akdogan, et al. Phy. Rev. Lett. 98, 052301 (2007)

37.) “3He Spin-Dependent Cross Sections and Sum Rules”, K. Slifer, M. Amarian, L. Auerbach, et al. Phy. Rev. Lett. 101, 022303 (2008)

38.) “Charge Form Factor of the Neutron at LowMomentum Transfer from the HReaction”, E. Geis, M. Kohl, V. Ziskin, et al. Phy. Rev. Lett. 101, 042501 (2008)

39.) “Transmutation of nuclear wastes reactions triggered by Compton photonuclear backscattering photons at the Shanghai laser electron gamma source”, CHEN Jin-Gen, XU Wang, WANG Hong Wei , et al. Chinese Physics C. 32 (2008) 677.

40.) “Backward Compton scattering and QED with noncommutative plane in the strong uniform magnetic field”, HUANG Wei, XU Wang, YAN Mu-Lin, Chinese Physics C, 32 (2008) 342.

41.) “Shanghai Laser Electron Gamma Source”, PAN Qiang-yan, XU Wang , CHEN Jin-gen, et al. Nuclear Physics Review 25 (2008) 129;

42.) “Measurement of electric polarizabilities of light nucleus(nucleons)”, FAN Gong-Tao, XU Wang, MA Yu-Gang , et al. Chinese Physics C, 32 (2008) 166.

43.) “Shanghai laser electron gamma source and its applications”, GUO Wei，XU Yi， CHEN Jin Gen, et al. Chinese Physics C, 32 (2008) 190

44.)“Determination of the stellar ,reaction rate for 12C(αγ )16O: using a new expression with the reaction mechanism”，Xu Yi, Xu Wang, Ma Yu-Gang, et al. Chinese Physics B 18（2009）1421；&�Բ��;

45.)“Study interaction between intensive circularly polarized laser and hydrogen atom using a matrix method”，L.F.Yang, W.Xu, Q.R.Zhang, et al. Proceedings of 3rd International Workshop on Matrix Analysis Hangzhou,P.R.China.July 9-13, 2009, pp. 199-202

46.)“The extraction of φ–N total cross section from d(γ , pK+K−)n”, X.Qian, W.Chen, H.Gao, et al. Physics Letters B 680（2009）417；&�Բ��;

47.)“Laser compton scattering experiments and the latest developments in construction of experimental facilities at SINAP”，W.Luo, W.Xu Q.Y.Pan, et al. Optical Design and Testing II, Pts 1 and 2, (2009);

48.)“The BLASTexperiment”，D.HAsell, T.Akdogan, R.Alarcon, et al. Nuclear Instruments and Methods in Physics Research A 603（2009）247；&�Բ��;

49.)“Radius studies of 8Li and 8B using the optical-limit Glauber Model in conjunction with relativistic mean- eld theory”，FAN Guang-wei, XU Wang, M.Fukuda, et al. Chinese Physics C 33, 1(2009);

50.) “Experiment of X-ray Generations Using Laser-Compton Scattering at LINAC of SINAP”,PAN Qiang-yan, XU Wang,LUO Wen, et al. Nuclear Physics Review 26 (2009) 115;

51.) “Measurement of PV asymmetry in n+p→d+γ and γ+d→n+p”, LI Yongjiang, XU, W, et al., Chinese physics C 34, 1465(2010).

52.)“A Simple X-ray Spectrometer and PC-based Data Acquisition System for Newly Developed X ray Source Based on Laser Compton Scattering”，LUO Wen , XU Wang ,PAN Qiang-yan, et al. Nuclear Physics Review 26 (2009) 115;

53.)“Systematic uncertainty studies for precision measurement on electric polarizabilities of 3He and 4He” G.T.Fan, W.Xu, C.J.Lin, et al. Nuclear Physics A 834（2010）183c;

54.) “Study of the ionization of hydrogen atoms in an intense circularly polarized”, L.F.Yang, W.Xu , et al. PHYS SCRIPTA 144（2011）1;

55.) “Computational Investigation 2 of the Interaction Between Hydrogen Atoms and an Intense Circularly Polarized Laser Field”, L.F.Yang, W.Xu , et al. COMMUN COMPUT PHYS 11（2012） 756;

56.) “Experimental study for measuring the decay branching ratio for nuclear excitation by electron transition in 189Os”, X. L. Cai, W.Xu, W. Luo, et al. Nuclear Physics A 874 (2012) 1;

57.）“The development of LCS gamma source at Shanghai Institute of Applied Physics,Chinese Academy of Sciences” Xu Wang, Huang Bosong, Li Yongjiang et al. High Power Laser and Particle Beams (accepted in 2012);

58.) “Adjustable LCS γ Source SINAP-III”, Xu Wang, Luo Wen, et al., Nuclear Physics Review (accepted in 2012);