Dipole transition‐matrix elements and oscillator strengths for the C⁴⁺doubly excited states with Coulomb and screened Coulomb (Debye–Hückel) potentials

Abstract: The dipole transition-matrix elements (DTMEs) and oscillator strengths (OSs) for the doubly excited states (DESs) in heliumlike carbon are investigated using the correlated exponential wavefunctions (CEW). The interactions between the charged particles are taken care of by using both Coulomb and screened Coulomb (Debye-Hückel) poten-

“…In recent years, with the gradual development of plasma technology, the study on the structural properties of atomic and molecular systems under the influence of external environments is one of the hot research areas [1][2][3][4][5][6][7][8][9][10][11][12][13][14]. Several studies on the atomic systems under Debye screening and modified Debye screening are reported [15][16][17][18][19][20][21][22]. The modified Debye-Hückel potentials (MDHP) or particularly the exponential-cosine-screened Coulomb potential (ECSCP) are used to model the Quantum plasmas which are widely found in laser plasmas [23,24] and nanoscale objects [25].…”

“…Muonic molecular ions, as a branch of exotic atoms, have a wide range of applications in nuclear physics, condensed matter physics, and atomic-molecular physics. With the recent development of muon catalytic fusion [32,33], Muon Spin Rotation technology [34], muon spectroscopy experiments [35], and advancement in atomic and molecular systems under screening environments ( [1,30,[36][37][38], references therein), it is of great interest to investigate the bound states, and resonance states of exotic muonic-molecular systems under the influence of ECSCP, which can provide benchmark data for future studies on this topic. Furthermore, it is also relevant to search Borromean state, a bound state of three quantum particles that falls apart if one particle is taken away, for the P-state of the exotic molecular ions interacting with MDHP or ECSCP.…”

The 3Po states of exotic molecular ions with exponential-cosine-screened Coulomb potentials

“…In recent years, with the gradual development of plasma technology, the study on the structural properties of atomic and molecular systems under the influence of external environments is one of the hot research areas [1][2][3][4][5][6][7][8][9][10][11][12][13][14]. Several studies on the atomic systems under Debye screening and modified Debye screening are reported [15][16][17][18][19][20][21][22]. The modified Debye-Hückel potentials (MDHP) or particularly the exponential-cosine-screened Coulomb potential (ECSCP) are used to model the Quantum plasmas which are widely found in laser plasmas [23,24] and nanoscale objects [25].…”

“…Muonic molecular ions, as a branch of exotic atoms, have a wide range of applications in nuclear physics, condensed matter physics, and atomic-molecular physics. With the recent development of muon catalytic fusion [32,33], Muon Spin Rotation technology [34], muon spectroscopy experiments [35], and advancement in atomic and molecular systems under screening environments ( [1,30,[36][37][38], references therein), it is of great interest to investigate the bound states, and resonance states of exotic muonic-molecular systems under the influence of ECSCP, which can provide benchmark data for future studies on this topic. Furthermore, it is also relevant to search Borromean state, a bound state of three quantum particles that falls apart if one particle is taken away, for the P-state of the exotic molecular ions interacting with MDHP or ECSCP.…”

The 3Po states of exotic molecular ions with exponential-cosine-screened Coulomb potentials

The $$^{\textbf{3}}{} \textit{P}^{{\varvec{o}}}$$ States of Exotic Molecular Ions with Exponential-Cosine-Screened Coulomb Potentials