Warm dense matter encompasses ionized fluids at the confluence of condensed matter physics, plasma physics, and dense liquids. Experimental facilities are becoming available that can create and diagnose well-controlled WDM conditions, offering an unprecedented window on this intermediate state of matter and providing an ideal testing ground for theories.

Recently warm dense matter has attracted attention because of its importance in diverse physical systems, including exo-planet interiors, the path to inertial confinement fusion, and neutron stellar atmospheres, as well as increased accessibility through large scale laboratory experiments. For example facilities such as the Linac Coherent Light Source (LCLS) have significant advancements in X-ray free-electron lasers (XFELs), allowing for pump and probe capabilities which provide unprecedented means to generate and study material properties in warm dense matter conditions. In particular with spectrally resolved x-ray scattering, detailed measurements of the electron densities, temperatures, and ionization states of compressed materials are now being achieved, which allows for cross validation between theoretic/computational predictions and the experiments themselves.

The Journal of Physics Research and Application pleased to invite you for the submission of all kinds of research work, reviews, case reports, commentary, and letter to the editor, mini review, opinion, short communication, book review, editorials etc. in the field of recent developments in physical science technology, for its next volume of 2020 for the March issue.

Articles can be submitted to this mail id: appliedphysics@scholarres.org

Your acknowledgement and response is highly appreciated. Please contact us for any further query or assistance in this regard.

Thanks & Regards,                                                    

Subhana Quadri
Journal of Physics Research and Application
Scitechnol 
appliedphysics@journalres.com