Hydrodynamic, Optically-Field-Ionized (HOFI) Plasma Channels

(2018)

Authors:

Robert Shalloo, Christopher Arran, Laura Corner, James Holloway, Jakob Jonnerby, Roman Walczak, Howard Milchberg, Simon Hooker

Evolution of the Design and Fabrication of Astrophysics Targets for Turbulent Dynamo (TDYNO) Experiments on OMEGA

FUSION SCIENCE AND TECHNOLOGY 73:3 (2018) 434-445

Authors:

SA Muller, DN Kaczala, HM Abu-Shawareb, EL Alfonso, LC Carlson, M Mauldin, P Fitzsimmons, D Lamb, P Tzeferacos, L Chen, G Gregori, A Rigby, A Bott, TG White, D Froula, J Katz

Kr environments in a feldspathic glass and melt: a high pressure, high temperature X-ray absorption study.

Chemical Geology 493, pp 525-531.

Authors:

Crépisson C., Sanloup C., Cormier L., Blanchard M., Hudspeth J., Rosa A., Irifune T., Mathon O.

Abstract:

New constraints on Xe incorporation mechanisms in olivine from first-principles calculations

Geochimica et Cosmochimica Acta 222, pp 146-155.

Authors:

Crépisson C., Blanchard M., Lazzeri M., Balan E., Sanloup C.

Abstract:

Axion particle production in a laser-induced dynamical spacetime

Physics Letters B Elsevier 777 (2017) 388-393

Authors:

M Wadud, B King, R Bingham, Gianluca Gregori

Abstract:

We consider the dynamics of a charged particle (e.g., an electron) oscillating in a laser field in flat spacetime and describe it in terms of the variable mass metric. By applying Einstein’s equivalence principle, we show that, after representing the electron motion in a time-dependent manner, the variable mass metric takes the form of the Friedmann–Lemaître–Robertson–Walker metric. We quantize a pseudoscalar field in this spacetime and derive the production rate of electrically neutral, spinless particles. We show that this approach can provide an alternative experimental method to axion searches.