Litcius/Paper detail

Hydrogen-like Plasmas under Endohedral Cavity

Saptarshi Chowdhury, Neetik Mukherjee, Amlan K. Roy

2023Quantum Reports11 citationsDOIOpen Access PDF

Abstract

Over the past few decades, confined quantum systems have emerged to be a subject of considerable importance in physical, chemical and biological sciences. Under such stressed conditions, they display many fascinating and notable physical and chemical properties. Here we address this situation by using two plasma models, namely a weakly coupled plasma environment mimicked by a Debye-Hückel potential (DHP) and an exponential cosine screened Coulomb potential (ECSCP). On the other hand, the endohedral confinement is achieved via a Woods-Saxon (WS) potential. The critical screening constant, dipole oscillator strength (OS) and polarizability are investigated for an arbitrary state. A Shannon entropy-based strategy has been invoked to study the phase transition here. An increase in Z leads to larger critical screening. Moreover, a detailed investigation reveals that there exists at least one bound state in such plasmas. Pilot calculations are conducted for some low-lying states (ℓ=1−5) using a generalized pseudo spectral scheme, providing optimal, non-uniform radial discretization.

Topics & Concepts

PolarizabilityDebye–Hückel equationPlasmaAtomic physicsDipoleWave functionCoulombDiscretizationOscillator strengthAtomic orbitalPhysicsExponential functionQuantum mechanicsSpectral lineMoleculeMathematicsElectronElectrolyteElectrodeMathematical analysisAdvanced Chemical Physics StudiesAtomic and Molecular PhysicsFullerene Chemistry and Applications