Your search keyword '"Hall, Richard L."' showing total 569 results

1. Refining the general comparison theorem for Klein-Gordon equation

Author

Hall, Richard L. and Harb, Hassan

Subjects

Mathematical Physics, High Energy Physics - Theory, Quantum Physics

Abstract

By recasting the Klein--Gordon equation as an eigen-equation in the coupling parameter $v > 0,$ the basic Klein--Gordon comparison theorem may be written $f_1\leq f_2\implies G_1(E)\leq G_2(E)$, where $f_1$ and $f_2$, are the monotone non-decreasing shapes of two central potentials $V_1(r) = v_1\,f_1(r)$ and $V_2(r) = v_2\, f_2(r)$ on $[0,\infty)$. Meanwhile $v_1 = G_1(E)$ and $v_2 = G_2(E)$ are the corresponding coupling parameters that are functions of the energy $E\in(-m,\,m)$. We weaken the sufficient condition for the ground-state spectral ordering by proving (for example in $d=1$ dimension) that if $\int_0^x\big[f_2(t) - f_1(t)\big]\varphi_i(t)dt\geq 0$, the couplings remain ordered $v_1 \leq v_2$ where $i = 1\, {\rm or}\, 2, $ and $\{\varphi_1, \varphi_2\}$ are the ground-states corresponding respectively to the couplings $\{v_1,\, v_2\}$ for a given $E \in (-m,\, m).$. This result is extended to spherically symmetric radial potentials in $ d > 1 $ dimensions., Comment: 16 pages and 9 figures. arXiv admin note: text overlap with arXiv:1906.08762

Published

2020

2. General comparison theorems for the Klein-Gordon equation in d dimensions

Author

Hall, Richard L. and Harb, Hassan

Subjects

Mathematical Physics, High Energy Physics - Theory, Quantum Physics

Abstract

We study bound-state solutions of the Klein-Gordon equation $\varphi^{\prime\prime}(x) =\big[m^2-\big(E-v\,f(x)\big)^2\big] \varphi(x),$ for bounded vector potentials which in one spatial dimension have the form $V(x) = v\,f(x),$ where $f(x)\le 0$ is the shape of a finite symmetric central potential that is monotone non-decreasing on $[0, \infty)$ and vanishes as $x\rightarrow\infty.$ Two principal results are reported. First, it is shown that the eigenvalue problem in the coupling parameter $v$ leads to spectral functions of the form $v= G(E)$ which are concave, and at most uni-modal with a maximum near the lower limit $E = -m$ of the eigenenergy $E \in (-m, \, m)$. This formulation of the spectral problem immediately extends to central potentials in $d > 1$ spatial dimensions. Secondly, for each of the dimension cases, $d=1$ and $d \ge 2$, a comparison theorem is proven, to the effect that if two potential shapes are ordered $f_1(r) \leq f_2(r),$ then so are the corresponding pairs of spectral functions $G_1(E) \leq G_2(E)$ for each of the existing eigenvalues. These results remove the restriction to positive eigenvalues necessitated by earlier comparison theorems for the Klein--Gordon equation., Comment: 20 pages and 6 figures

Published

2019

3. Potential envelope theory and the local energy theorem

Author

Gibara, Ryan and Hall, Richard L.

Subjects

Mathematical Physics

Abstract

We consider a one--particle bound quantum mechanical system governed by a Schr\"odinger operator $\mathscr{H} = -\Delta + v\,f(r)$, where $f(r)$ is an attractive central potential, and $v>0$ is a coupling parameter. If $\phi \in \mathcal{D}(\mathscr{H})$ is a `trial function', the local energy theorem tells us that the discrete energies of $\mathscr{H}$ are bounded by the extreme values of $(\mathscr{H}\phi)/\phi,$ as a function of $r$. We suppose that $f(r)$ is a smooth transformation of the form $f = g(h)$, where $g$ is monotone increasing with definite convexity and $h(r)$ is a potential for which the eigenvalues $H_n(u)$ of the operator $\mathcal{H}=-\Delta + u\, h(r)$, for appropriate $u >0$, are known. It is shown that the eigenfunctions of $\mathcal{H}$ provide local-energy trial functions $\phi$ which necessarily lead to finite eigenvalue approximations that are either lower or upper bounds. This is used to extend the local energy theorem to the case of upper bounds for the excited-state energies when the trial function is chosen to be an eigenfunction of such an operator $\mathcal{H}$. Moreover, we prove that the local-energy approximations obtained are identical to `envelope bounds', which can be obtained directly from the spectral data $H_n(u)$ without explicit reference to the trial wave functions.

Published

2019

4. Exact normalized eigenfunctions for general deformed Hulth\'en potentials

Author

Hall, Richard L., Saad, Nasser, and Sen, K. D.

Subjects

Mathematical Physics, Quantum Physics

Abstract

The exact solutions of Schr\"odinger's equation with the deformed Hulth\'en potential $V_q(x)=-{\mu\, e^{-\delta\,x }}/({1-q\,e^{-\delta\,x}}),~ \delta,\mu, q>0$ are given, along with a closed--form formula for the normalization constants of the eigenfunctions for arbitrary $q>0$. The Crum-Darboux transformation is then used to derive the corresponding exact solutions for the extended Hulth\'en potentials $V(x)= -{\mu\, e^{-\delta\,x }}/({1-q\,e^{-\delta\,x}})+ {q\,j(j+1)\, e^{-\delta\,x }}/({1-q\,e^{-\delta\,x}})^2, j=0,1,2,\dots.$ A general formula for the new normalization condition is also provided., Comment: 14 pages, two figures

Published

2018

5. The $d$-dimensional softcore Coulomb potential and the generalized confluent Heun equation

Author

Hall, Richard L, Saad, Nasser, and Bryenton, Kyle R.

Subjects

Mathematical Physics, 33C05, 03.65, 33C47, 47E05, 34B60, 33C15, 34A05, 34B30, 81Q05

Abstract

An analysis of the generalized confluent Heun equation $(\alpha_2r^2+\alpha_1r)\,y''+(\beta_2r^2+\beta_1r+\beta_0)\,y'-(\varepsilon_1r+\varepsilon_0)\,y=0$ in $d$-dimensional space, where $\{\alpha_i, \beta_i, \varepsilon_i\}$ are real parameters, is presented. With the aid of these general results, the quasi exact solvability of the Schr\"odinger eigenproblem generated by the softcore Coulomb potential $V(r)=-e^2Z/(r+b),\, b>0$, is explicitly resolved. Necessary and sufficient conditions for polynomial solvability are given. A three-term recurrence relation is provided to generate the coefficients of polynomial solutions explicitly. We prove that these polynomial solutions are sources of finite sequences of orthogonal polynomials. Properties such as recurrence relations, Christoffel-Darboux formulas, and the moments of the weight function are discussed. We also reveal a factorization property of these polynomials which permits the construction of other interesting related sequences of orthogonal polynomials., Comment: 16 Pages, 5 figures, Journal of Mathematical Physics, 2018

Published

2018

6. Exact and approximate solutions of Schr\'odinger's equation with hyperbolic double-well potentials

Author

Hall, Richard L. and Saad, Nasser

Subjects

Mathematical Physics

Abstract

Analytic and approximate solutions for the energy eigenvalues generated by the hyperbolic potentials $V_m(x)=-U_0\sinh^{2m}(x/d)/\cosh^{2m+2}(x/d),\,m=0,1,2,\dots$ are constructed. A byproduct of this work is the construction of polynomial solutions for the confluent Heun equation along with necessary and sufficient conditions for the existence of such solutions based on the evaluation of a three-term recurrence relation. Very accurate approximate solutions for the general problem with arbitrary potential parameters are found by use of the {\it asymptotic iteration method}., Comment: 17 pages, 6 figures

Published

2016

7. Refined comparison theorems for the Dirac equation with spin and pseudo--spin symmetry in $d$ dimensions

Author

Hall, Richard L. and Zorin, Petr

Subjects

Mathematical Physics, Quantum Physics

Abstract

The classic comparison theorem of quantum mechanics states that if two potentials are ordered then the corresponding energy eigenvalues are similarly ordered, that is to say if $V_a\le V_b$, then $E_a\le E_b$. Such theorems have recently been established for relativistic problems even though the discrete spectra are not easily characterized variationally. In this paper we improve on the basic comparison theorem for the Dirac equation with spin and pseudo--spin symmetry in $d\ge 1$ dimensions. The graphs of two comparison potentials may now cross each other in a prescribed manner implying that the energy values are still ordered. The refined comparison theorems are valid for the ground state in one dimension and for the bottom of an angular momentum subspace in $d>1$ dimensions. For instance in a simplest case in one dimension, the condition $V_a\le V_b$ is replaced by $U_a\le U_b$, where $U_i(x)=\int_0^x V_i(t)dt$, $x\in[0,\ \infty)$, and $i=a$ or $b$., Comment: 13 pages, 7 figures

Published

2016

8. Sharp comparison theorems for the Klein--Gordon equation in $d$ dimensions

Author

Hall, Richard L. and Zorin, Petr

Subjects

Mathematical Physics, Quantum Physics

Abstract

We establish sharp (or `refined') comparison theorems for the Klein--Gordon equation. We show that the condition $V_a\le V_b$, which leads to $E_a\le E_b$, can be replaced by the weaker assumption $U_a\le U_b$ which still implies the spectral ordering $E_a\le E_b$. In the simplest case, for $d=1$, $U_i(x)=\int_0^x V_i(t)dt$, $i=a$ or $b$, and for $d>1$, $U_i(r)=\int_0^r V_i(t) t^{d-1}dt$, $i=a$ or $b$. We also consider sharp comparison theorems in the presence of a scalar potential $S$ (a `variable mass') in addition to the vector term $V$ (the time component of a $4$-vector). The theorems are illustrated by a variety of explicit detailed examples., Comment: 17 pages, 9 figures. The paper has been extensively re-written to improve the clarity and completeness of the presentation

Published

2015

9. Refined comparison theorems for the Dirac equation in d dimensions

Author

Hall, Richard L. and Zorin, Petr

Subjects

Mathematical Physics, Quantum Physics

Abstract

A single spin-$\frac{1}{2}$ particle obeys the Dirac equation in $d\ge 1$ spatial dimension and is bound by an attractive central monotone potential which vanishes at infinity (in one dimension the potential is even). This work refines the relativistic comparison theorems which were derived by Hall \cite{p75}. The new theorems allow the graphs of the two comparison potentials $V_a$ and $V_b$ to crossover in a controlled way and still imply the spectral ordering $E_a\le E_b$ for the eigenvalues at the bottom of each angular momentum subspace. More specifically in a simplest case we have: in dimension $d=1$, if $\int_0^x (V_b(t)-V_a(t)) dt\ge 0,\ x\in [0,\ \infty)$, then $E_a\le E_b$; and in $d>1$ dimensions, if $\int_0^r (V_b(t)-V_a(t))t^{2|k_d|} dt\ge 0,\ r\in [0,\ \infty)$, where $k_d=\tau\left(j+\frac{d-2}{2}\right)$ and $\tau=\pm 1$, then $E_a\le E_b$., Comment: 19 pages, 10 figures

Published

2015

10. Soft and hard confinement of a two-electron quantum system

Author

Hall, Richard L., Saad, Nasser, and Sen, K. D.

Subjects

Mathematical Physics

Abstract

A model physical problem is studied in which a system of two electrons is subject either to soft confinement by means of attractive oscillator potentials or by entrapment within an impenetrable spherical box of finite radius $R.$ When hard confinement is present the oscillators can be switched off. Exact analytical solutions are found for special parameter sets, and highly accurate numerical solutions (18 decimal places) are obtained for general cases. Some interesting degeneracy questions are discussed at length., Comment: 17 pages, two figures. arXiv admin note: substantial text overlap with arXiv:1108.4878

Published

2014

11. Schr\'odinger spectrum generated by the Cornell potential

Author

Hall, Richard L. and Saad, Nasser

Subjects

Mathematical Physics

Abstract

The eigenvalues $E_{n\ell}^d(a,c)$ of the $d$-dimensional Schr\"odinger equation with the Cornell potential $V(r)=-a/r+c\,r$, $a,c>0$ are analyzed by means of the envelope method and the asymptotic iteration method (AIM). Scaling arguments show that it is sufficient to know $E(1,\lambda)$, and the envelope method provides analytic bounds for the equivalent complete set of coupling functions $\lambda(E)$. Meanwhile the easily-implemented AIM procedure yields highly accurate numerical eigenvalues with little computational effort., Comment: 8 pages, 2 figures

Published

2014

12. Schr\'odinger Models for Solutions of the Bethe-Salpeter Equation in Minkowski Space. II. Fermionic Bound-State Constituents

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

In view of the obstacles encountered in any attempts to solve the Minkowski-space Bethe-Salpeter equation for bound states of two fermions, we study the possibility to model the bound-state features, at least at a qualitative level, by a Schr\"odinger description. Such a nonrelativistic potential model can be constructed by applying, to any given Bethe-Salpeter spectral data, "geometric spectral inversion" in its recently extended form, which tolerates also singular potentials. This leads to the adaptation of explicit models that provide an overview accounting for the Bethe-Salpeter formalism's complexities., Comment: 10 pages, 6 figures

Published

2014

13. Spectra generated by a confined softcore Coulomb potential

Author

Hall, Richard L and Saad, Nasser

Subjects

Mathematical Physics

Abstract

Analytic and approximate solutions for the energy eigenvalues generated by a confined softcore Coulomb potentials of the form a/(r+\beta) in d>1 dimensions are constructed. The confinement is effected by linear and harmonic-oscillator potential terms, and also through `hard confinement' by means of an impenetrable spherical box. A byproduct of this work is the construction of polynomial solutions for a number of linear differential equations with polynomial coefficients, along with the necessary and sufficient conditions for the existence of such solutions. Very accurate approximate solutions for the general problem with arbitrary potential parameters are found by use of the asymptotic iteration method., Comment: 17 pages, 2 figures

Published

2014

14. Polynomial solutions for a class of second-order linear differential equations

Author

Saad, Nasser, Hall, Richard L., and Trenton, Victoria A.

Subjects

Mathematical Physics

Abstract

We analyze the polynomial solutions of the linear differential equation $p_2(x)y''+p_1(x)y'+p_0(x)y=0$ where $p_j(x)$ is a $j^{\rm th}$-degree polynomial. We discuss all the possible polynomial solutions and their dependence on the parameters of the polynomials $p_j(x)$. Special cases are related to known differential equations of mathematical physics. Classes of new soluble problems are exhibited. General results are obtained for weight functions and orthogonality relations., Comment: 23 pages

Published

2013

15. Nodal theorems for the Dirac equation in d >= 1 dimensions

Author

Hall, Richard L. and Zorin, Petr

Subjects

Mathematical Physics, Quantum Physics

Abstract

A single particle obeys the Dirac equation in $d \ge 1$ spatial dimensions and is bound by an attractive central monotone potential that vanishes at infinity. In one dimension, the potential is even, and monotone for $x\ge 0.$ The asymptotic behavior of the wave functions near the origin and at infinity are discussed. Nodal theorems are proven for the cases $d=1$ and $d > 1$, which specify the relationship between the numbers of nodes $n_1$ and $n_2$ in the upper and lower components of the Dirac spinor. For $d=1$, $n_2 = n_1 + 1,$ whereas for $d >1,$ $n_2 = n_1 +1$ if $k_d > 0,$ and $n_2 = n_1$ if $k_d < 0,$ where $k_d = \tau(j + \frac{d-2}{2}),$ and $\tau = \pm 1.$ This work generalizes the classic results of Rose and Newton in 1951 for the case $d=3.$ Specific examples are presented with graphs, including Dirac spinor orbits $(\psi_1(r), \psi_2(r)), r \ge 0.$, Comment: 10 pages, 10 figures

Published

2013

16. Wide effectiveness of a sine basis for quantum-mechanical problems in d dimensions

Author

Hall, Richard L. and Rodriguez, Alexandra Lemus

Subjects

Mathematical Physics

Abstract

It is shown that the spanning set for L^2([0, 1]) provided by the eigenfunctions {sqrt{2} sin(n\pi x)}_{n=1}^{\infty} of the particle-in-a-box in quantum mechanics provide a very effective variational basis for more general problems. The basis is scaled to [a,b], where a and b are then used as variational parameters. What is perhaps a natural basis for quantum systems confined to a spherical box in R^d, turns out to be appropriate also for problems that are softly confined by U-shaped potentials, including those with strong singularities at r=0. Specific examples are discussed in detail, along with some bound N-boson systems, Comment: 12 pages, 3 figures

Published

2012

17. Exact and approximate solutions of Schroedinger's equation for a class of trigonometric potentials

Author

Ciftci, Hakan, Hall, Richard L., and Saad, Nasser

Subjects

Mathematical Physics

Abstract

The asymptotic iteration method is used to find exact and approximate solutions of Schroedinger's equation for a number of one-dimensional trigonometric potentials (sine-squared, double-cosine, tangent-squared, and complex cotangent). Analytic and approximate solutions are obtained by first using a coordinate transformation to reduce the Schroedinger equation to a second-order differential equation with an appropriate form. The asymptotic iteration method is also employed indirectly to obtain the terms in perturbation expansions, both for the energies and for the corresponding eigenfunctions., Comment: 13 pages

Published

2012

18. Geometric Spectral Inversion

Author

Hall, Richard L.

Subjects

Mathematical Physics

Abstract

A discrete eigenvalue E_n of a Schroedinger operator H = -\Delta + vf(r) is given, as a function F_n(v) of the coupling parameter v\ge v_c. It is shown how the potential shape f(x) can be reconstructed from F_n(v). A constructive inversion algorithm and a functional inversion sequence are both discussed., Comment: 20 pages, 7 figures; 13th Regional Conference on Mathematical Physics, October 27 - 31, 2010, Antalya, Turkey

Published

2012

19. Schroedinger models for solutions of the Bethe-Salpeter equation in Minkowski space

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Theory, Quantum Physics

Abstract

By application of the 'geometric spectral inversion' technique, which we have recently generalized to accommodate also singular interaction potentials, we construct from spectral data emerging from the solution of the Minkowski-space formulation of the homogeneous Bethe-Salpeter equation describing bound states of two spinless particles a Schroedinger approach to such states in terms of nonrelativistic potential models. This spectrally equivalent modeling of bound states yields their qualitative features (masses, form factors, etc.) without having to deal with the more involved Bethe-Salpeter formalism., Comment: 16 pages, 11 figures

Published

2012

20. Dirac eigenvalues for a softcore Coulomb potential in d dimensions

Author

Hall, Richard L. and Zorin, Petr

Subjects

Mathematical Physics, Physics - Atomic Physics

Abstract

A single fermion is bound by a softcore central Coulomb potential V(r) = -v/(r^q + b^q)^(1/q), v>0, b>0, q \ge 1, in d>1 spatial dimensions. Envelope theory is used to construct analytic lower bounds for the discrete Dirac energy spectrum. The results are compared to accurate eigenvalues obtained numerically., Comment: 8 pages 1 figure

Published

2012

21. Geometric spectral inversion for singular potentials

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Theory, Quantum Physics

Abstract

The function E = F(v) expresses the dependence of a discrete eigenvalue E of the Schroedinger Hamiltonian H = -\Delta + vf(r) on the coupling parameter v. We use envelope theory to generate a functional sequence \{f^{[k]}(r)\} to reconstruct f(r) from F(v) starting from a seed potential f^{[0]}(r). In the power-law or log cases the inversion can be effected analytically and is complete in just two steps. In other cases convergence is observed numerically. To provide concrete illustrations of the inversion method it is first applied to the Hulth\'en potential, and it is then used to invert spectral data generated by singular potentials with shapes of the form f(r) = -a/r + b\sgn(q)r^q and f(r) = -a/r + b\ln(r), a, b > 0. For the class of attractive central potentials with shapes f(r) = g(r)/r, with g(0)< 0 and g'(r)\ge 0, we prove that the ground-state energy curve F(v) determines f(r) uniquely., Comment: 13 pages, 5 figures

Published

2011

22. Discrete spectra for confined and unconfined -a/r + b r^2 potentials in d dimensions

Author

Hall, Richard L., Saad, Nasser, and Sen, Kalidas

Subjects

Mathematical Physics, Physics - Atomic Physics, Physics - Chemical Physics

Abstract

Exact solutions to the d-dimensional Schroedinger equation, d\geq 2, for Coulomb plus harmonic oscillator potentials V(r)=-a/r+br^2, b>0 and a\ne 0 are obtained. The potential V(r) is considered both in all space, and under the condition of spherical confinement inside an impenetrable spherical box of radius R. With the aid of the asymptotic iteration method, the exact analytic solutions under certain constraints, and general approximate solutions, are obtained. These exhibit the parametric dependence of the eigenenergies on a, b, and R. The wave functions have the simple form of a product of a power function, an exponential function, and a polynomial. In order to achieve our results the question of determining the polynomial solutions of the second-order differential equation (\sum_{i=0}^{k+2}a_{k+2,i}r^{k+2-i})y"+(\sum_{i=0}^{k+1}a_{k+1,i}r^{k+1-i})y'-(\sum_{i=0}^{k}\tau_{k,i}r^{k-i})y=0 for k=0,1,2 is solved., Comment: 16 pages, 1 figure

Published

2011

23. Study of the generalized quantum isotonic nonlinear oscillator potential

Author

Saad, Nasser, Hall, Richard L., Ciftci, Hakan, and Yesiltas, Ozlem

Subjects

Mathematical Physics

Abstract

We study the generalized quantum isotonic oscillator Hamiltonian given by H=-d^2/dr^2+l(l+1)/r^2+w^2r^2+2g(r^2-a^2)/(r^2+a^2)^2, g>0. Two approaches are explored. A method for finding the quasi-polynomial solutions is presented, and explicit expressions for these polynomials are given, along with the conditions on the potential parameters. By using the asymptotic iteration method we show how the eigenvalues of this Hamiltonian for arbitrary values of the parameters g, w and a may be found to high accuracy., Comment: 13 pages, 1 figure

Published

2011

24. Spectral characteristics for a spherically confined -1/r + br^2 potential

Author

Hall, Richard L., Saad, Nasser, and Sen, K. D.

Subjects

Mathematical Physics, Quantum Physics

Abstract

We consider the analytical properties of the eigenspectrum generated by a class of central potentials given by V(r) = -a/r + br^2, b>0. In particular, scaling, monotonicity, and energy bounds are discussed. The potential $V(r)$ is considered both in all space, and under the condition of spherical confinement inside an impenetrable spherical boundary of radius R. With the aid of the asymptotic iteration method, several exact analytic results are obtained which exhibit the parametric dependence of energy on a, b, and R, under certain constraints. More general spectral characteristics are identified by use of a combination of analytical properties and accurate numerical calculations of the energies, obtained by both the generalized pseudo-spectral method, and the asymptotic iteration method. The experimental significance of the results for both the free and confined potential V(r) cases are discussed., Comment: 16 pages, 4 figures

Published

2011

25. Generalized quantum isotonic nonlinear oscillator in d dimensions

Author

Hall, Richard L., Saad, Nasser, and Yesiltas, Ozlem

Subjects

Mathematical Physics, Quantum Physics

Abstract

We present a supersymmetric analysis for the d-dimensional Schroedinger equation with the generalized isotonic nonlinear-oscillator potential V(r)={B^2}/{r^{2}}+\omega^{2} r^{2}+2g{(r^{2}-a^{2})}/{(r^{2}+a^{2})^{2}}, B\geq 0. We show that the eigenequation for this potential is exactly solvable provided g=2 and (\omega a^2)^2 = B^2 +(\ell +(d-2)/2)^2. Under these conditions, we obtain explicit formulae for all the energies and normalized bound-state wavefunctions., Comment: 8 pages, no figures

Published

2010

26. Physical applications of second-order linear differential equations that admit polynomial solutions

Author

Ciftci, Hakan, Hall, Richard L., Saad, Nasser, and Dogu, Ebubekir

Subjects

Mathematical Physics, Quantum Physics

Abstract

Conditions are given for the second-order linear differential equation P3 y" + P2 y'- P1 y = 0 to have polynomial solutions, where Pn is a polynomial of degree n. Several application of these results to Schroedinger's equation are discussed. Conditions under which the confluent, biconfluent, and the general Heun equation yield polynomial solutions are explicitly given. Some new classes of exactly solvable differential equation are also discussed. The results of this work are expressed in such way as to allow direct use, without preliminary analysis., Comment: 13 pages, no figures

Published

2010

27. Supersymmetric analysis for the Dirac equation with spin-symmetric and pseudo-spin-symmetric interactions

Author

Hall, Richard L. and Yesiltas, Ozlem

Subjects

Mathematical Physics

Abstract

A supersymmetric analysis is presented for the d-dimensional Dirac equation with central potentials under spin-symmetric (S(r) = V(r)) and pseudo-spin-symmetric (S(r) = - V(r)) regimes. We construct the explicit shift operators that are required to factorize the Dirac Hamiltonian with the Kratzer potential. Exact solutions are provided for both the Coulomb and Kratzer potentials., Comment: 12 pages

Published

2010

28. Relativistic Comparison Theorems

Author

Hall, Richard L.

Subjects

Mathematical Physics, Physics - Atomic Physics, Quantum Physics

Abstract

Comparison theorems are established for the Dirac and Klein--Gordon equations. We suppose that V^{(1)}(r) and V^{(2)}(r) are two real attractive central potentials in d dimensions that support discrete Dirac eigenvalues E^{(1)}_{k_d\nu} and E^{(2)}_{k_d\nu}. We prove that if V^{(1)}(r) \leq V^{(2)}(r), then each of the corresponding discrete eigenvalue pairs is ordered E^{(1)}_{k_d\nu} \leq E^{(2)}_{k_d\nu}. This result generalizes an earlier more restrictive theorem that required the wave functions to be node free. For the the Klein--Gordon equation, similar reasoning also leads to a comparison theorem provided in this case that the potentials are negative and the eigenvalues are positive., Comment: 6 pages

Published

2010

29. Comparison theorems for the Dirac equation with spin-symmetric and pseudo-spin-symmetric interactions

Author

Hall, Richard L. and Yesiltas, Ozlem

Subjects

Mathematical Physics

Abstract

A single Dirac particle is bound in d dimensions by vector V(r) and scalar S(r) central potentials. The spin-symmetric S=V and pseudo-spin-symmetric S = - V cases are studied and it is shown that if two such potentials are ordered V^{(1)} \le V^{(2)}, then corresponding discrete eigenvalues are all similarly ordered E_{\kappa \nu}^{(1)} \le E_{\kappa \nu}^{(2)}. This comparison theorem allows us to use envelope theory to generate spectral approximations with the aid of known exact solutions, such as those for Coulombic, harmonic-oscillator, and Kratzer potentials. The example of the log potential V(r) = v\ln(r) is presented. Since $V(r)$ is a convex transformation of the soluble Coulomb potential, this leads to a compact analytical formula for lower-bounds to the discrete spectrum. The resulting ground-state lower-bound curve E_{L}(v) is compared with an accurate graph found by direct numerical integration., Comment: 12 pages, 1 figure.

Published

2010

30. Soft-core Coulomb potentials and Heun's differential equation

Author

Hall, Richard L., Saad, Nasser, and Sen, K. D.

Subjects

Mathematical Physics, Physics - Atomic Physics, Physics - Chemical Physics

Abstract

Schroedinger's equation with the attractive potential V(r) = -Z/(r^q+ b^q)^(1/q), Z > 0, b > 0, q >= 1, is shown, for general values of the parameters Z and b, to be reducible to the confluent Heun equation in the case q=1, and to the generalized Heun equation in case q=2. In a formulation with correct asymptotics, the eigenstates are specified a priori up to an unknown factor. In certain special cases this factor becomes a polynomial. The Asymptotic Iteration Method is used either to find the polynomial factor and the associated eigenvalue explicitly, or to construct accurate approximations for them. Detail solutions for both cases are provided., Comment: 16 pages, no figures

Published

2009

31. Semirelativistic N-boson systems bound by attractive pair potentials

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We establish bounds on the energy of a system of N identical bosons bound by attractive pair potentials and obeying the semirelativistic Salpeter equation. The lower bound is provided by a `reduction', with the aid of Jacobi relative coordinates, to a suitably scaled one-body Klein-Gordon problem. Complementary upper energy bounds are provided by means of a Gaussian trial function. Detailed results are presented for the exponential pair potential V(r) = -v\exp(-r/a)., Comment: 12 pages, 2 figures

Published

2009

32. Energies and wave functions for a soft-core Coulomb potential

Author

Hall, Richard L., Saad, Nasser, Sen, K. D., and Ciftci, Hakan

Subjects

Mathematical Physics, Physics - Atomic Physics, Quantum Physics

Abstract

For the family of model soft Coulomb potentials represented by V(r) = -\frac{Z}{(r^q+\beta^q)^{\frac{1}{q}}}, with the parameters Z>0, \beta>0, q \ge 1, it is shown analytically that the potentials and eigenvalues, E_{\nu\ell}, are monotonic in each parameter. The potential envelope method is applied to obtain approximate analytic estimates in terms of the known exact spectra for pure power potentials. For the case q =1, the Asymptotic Iteration Method is used to find exact analytic results for the eigenvalues E_{\nu\ell} and corresponding wave functions, expressed in terms of Z and \beta. A proof is presented establishing the general concavity of the scaled electron density near the nucleus resulting from the truncated potentials for all q. Based on an analysis of extensive numerical calculations, it is conjectured that the crossing between the pair of states [(\nu,\ell),(\nu',\ell')], is given by the condition \nu'\geq (\nu+1) and \ell' \geq (\ell+3). The significance of these results for the interaction of an intense laser field with an atom is pointed out. Differences in the observed level-crossing effects between the soft potentials and the hydrogen atom confined inside an impenetrable sphere are discussed., Comment: 13 pages, 5 figures, title change, minor revisions

Published

2009

33. Klein-Gordon lower bound to the semirelativistic ground-state energy

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Phenomenology, Quantum Physics

Abstract

For the class of attractive potentials V(r) <= 0 which vanish at infinity, we prove that the ground-state energy E of the semirelativistic Hamiltonian H = \sqrt{m^2 + p^2} + V(r) is bounded below by the ground-state energy e of the corresponding Klein--Gordon problem (p^2 + m^2)\phi = (V(r) -e)^2\phi. Detailed results are presented for the exponential and Woods--Saxon potentials., Comment: 7 pages, 4 figures

Published

2009

34. Asymptotic iteration method for the inverse power potentials

Author

Hall, Richard L. and Saad, Nasser

Published

2021

35. Comparison theorems for the Klein-Gordon equation in d dimensions

Author

Hall, Richard L. and Aliyu, M. D. S.

Subjects

Mathematical Physics

Abstract

Two comparison theorems are established for discrete eigenvalues of the Klein-Gordon equation with an attractive central vector potential in d >= 1 dimensions. (I) If \psi_1 and \psi_2 are node-free ground states corresponding to positive energies E_1 >= 0 and E_2 >= 0, and V_1(r) <= V_2(r) <= 0, then it follows that E_1 <= E_2. (II) If V(r,a) depends on a parameter a \in(a_1,a_2), V(r,a) <= 0, and E(a) is any positive eigenvalue, then \partial V/\partial a >= 0 ==> E'(a) >= 0 and \partial V/\partial a <= 0 ==> E'(a) <= 0., Comment: 4 pages, 1 figure

Published

2008

36. Special comparison theorem for the Dirac equation

Author

Hall, Richard L.

Subjects

Mathematical Physics, High Energy Physics - Theory

Abstract

If a central vector potential V(r,a) in the Dirac equation is monotone in a parameter 'a', then a discrete eigenvalue E(a) is monotone in 'a'. For such a special class of comparisons, this generalizes an earlier comparison theorem that was restricted to node free states. Moreover, the present theorem applies to every discrete eigenvalue., Comment: 3 pages

Published

2008

37. Study of a confined Hydrogen-like atom by the Asymptotic Iteration Method

Author

Ciftci, Hakan, Hall, Richard L., and Saad, Nasser

Subjects

Mathematical Physics

Abstract

The asymptotic iteration method (AIM) is used to obtain both special exact solutions and general approximate solutions for a Hydrogen-like atom confined in a spherical box of arbitrary radius R. Critical box radii, at which states are no longer bound, are also calculated. The results are compared with those in the literature., Comment: 10 pages

Published

2008

38. Asymptotic Iteration method for singular potentials

Author

Champion, Brodie, Hall, Richard L., and Saad, Nasser

Subjects

Mathematical Physics

Abstract

The asymptotic iteration method (AIM) is applied to obtain highly accurate eigenvalues of the radial Schroedinger equation with the singular potential V(r)=r^2+\lambda/r^\alpha (\alpha,\lambda> 0) in arbitrary dimensions. Certain fundamental conditions for the application of AIM, such as a suitable asymptotic form for the wave function, and the termination condition for the iteration process, are discussed. Several suggestions are introduced to improve the rate of convergence and to stabilize the computation. AIM offers a simple, accurate, and efficient method for the treatment of singular potentials such as V(r) valid for all ranges of coupling \lambda., Comment: 9 pages

Published

2008

39. The Klein-Gordon equation with the Kratzer potential in d dimensions

Author

Saad, Nasser, Hall, Richard L., and Ciftci, Hakan

Subjects

Mathematical Physics

Abstract

We apply the Asymptotic Iteration Method to obtain the bound-state energy spectrum for the d-dimensional Klein-Gordon equation with scalar S(r) and vector potentials V(r). When S(r) and V(r) are both Coulombic, we obtain all the exact solutions; when the potentials are both of Kratzer type, we obtain all the exact solutions for S(r)=V(r); if S(r) > V(r) we obtain exact solutions under certain constraints on the potential parameters: in this case, a possible general solution is found in terms of a monic polynomial, whose coefficients form a set of elementary symmetric polynomials., Comment: 13 pages

Published

2008

40. Issue Advertising and Legislative Voting on the Affordable Care Act

Author

Reynolds, Molly E. and Hall, Richard L.

Published

2018

41. Eigenvalue bounds for polynomial central potentials in d dimensions

Author

Katatbeh, Qutaibeh D., Hall, Richard L., and Saad, Nasser

Subjects

Mathematical Physics

Abstract

If a single particle obeys non-relativistic QM in R^d and has the Hamiltonian H = - Delta + f(r), where f(r)=sum_{i = 1}^{k}a_ir^{q_i}, 2\leq q_i < q_{i+1}, a_i \geq 0$, then the eigenvalues E = E_{n\ell}^{(d)}(\lambda) are given approximately by the semi-classical expression E = \min_{r > 0}[\frac{1}{r^2} + \sum_{i = 1}^{k}a_i(P_ir)^{q_i}]. It is proved that this formula yields a lower bound if P_i = P_{n\ell}^{(d)}(q_1), an upper bound if $P_i = P_{n\ell}^{(d)}(q_k) and a general approximation formula if P_i = P_{n\ell}^{(d)}(q_i). For the quantum anharmonic oscillator f(r)=r^2+\lambda r^{2m},m=2,3,... in d dimension, for example, E = E_{n\ell}^{(d)}(\lambda) is determined by the algebraic expression \lambda={1\over \beta}({2\alpha(m-1)\over mE-\delta})^m({4\alpha \over (mE-\delta)}-{E\over (m-1)}) where \delta={\sqrt{E^2m^2-4\alpha(m^2-1)}} and \alpha, \beta are constants. An improved lower bound to the lowest eigenvalue in each angular-momentum subspace is also provided. A comparison with the recent results of Bhattacharya et al (Phys. Lett. A, 244 (1998) 9) and Dasgupta et al (J. Phys. A: Math. Theor., 40 (2007) 773) is discussed., Comment: 13 pages, no figures

Published

2007

42. Solutions for certain classes of Riccati differential equation

Author

Saad, Nasser, Hall, Richard L, and Ciftci, Hakan

Subjects

Mathematical Physics

Abstract

We derive some analytic closed-form solutions for a class of Riccati equation y'(x)-\lambda_0(x)y(x)\pm y^2(x)=\pm s_0(x), where \lambda_0(x), s_0(x) are C^{\infty}-functions. We show that if \delta_n=\lambda_n s_{n-1}-\lambda_{n-1}s_n=0, where \lambda_{n}= \lambda_{n-1}^\prime+s_{n-1}+\lambda_0\lambda_{n-1} and s_{n}=s_{n-1}^\prime+s_0\lambda_{k-1}, n=1,2,..., then The Riccati equation has a solution given by y(x)=\mp s_{n-1}(x)/\lambda_{n-1}(x). Extension to the generalized Riccati equation y'(x)+P(x)y(x)+Q(x)y^2(x)=R(x) is also investigated., Comment: 10 pages

Published

2007

43. Solutions to the 1d Klein-Gordon equation with cutoff Coulomb potentials

Author

Hall, Richard L.

Subjects

Mathematical Physics

Abstract

In a recent paper by Barton (J. Phys. A40, 1011 (2007)), the 1-dimensional Klein-Gordon equation was solved analytically for the non-singular Coulomb-like potential V_1(|x|) = -\alpha/(|x|+a). In the present paper, these results are completely confirmed by a numerical formulation that also allows a solution for an alternative cutoff Coulomb potential V_2(|x|) = -\alpha/|x|, ~|x| > a, and otherwise V_2(|x|) = -\alpha/a., Comment: 8 pages, 4 figures

Published

2007

44. Ultrarelativistic N-boson systems

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics

Abstract

General analytic energy bounds are derived for N-boson systems governed by ultrarelativistic Hamiltonians of the form H = sum_{i=1}^N||p_i|| + sum_{1=i

Published

2007

45. Binding energies of semirelativistic N-boson systems

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Theory

Abstract

General analytic energy bounds are derived for N-boson systems governed by semirelativistic Hamiltonians of the form H=\sum_{i=1}^N \sqrt(p_i^2+m^2) + \sum_{1=i \ge generally, and we prove this for N=3, and for N=4 when m=0. The conjecture is also valid generally for the harmonic oscillator and in the nonrelativistic large-m limit. This formulation allows reductions to scaled 3- or 4-body problems, whose spectral bottoms provide energy lower bounds. The example of the ultrarelativistic linear potential is studied in detail and explicit upper- and lower-bound formulas are derived and compared with earlier bounds., Comment: 11 pages

Published

2007

46. Schroedinger secant lower bounds to semirelativistic eigenvalues

Author

Hall, Richard L. and Lucha, Wolfgang

Subjects

Mathematical Physics, High Energy Physics - Theory

Abstract

It is shown that the ground-state eigenvalue of a semirelativistic Hamiltonian of the form H = sqrt(m^2+p^2) + V is bounded below by the Schroedinger operator m + beta p^2 + V, for suitable beta > 0. An example is discussed., Comment: 7 pages, 1 figure

Published

2007

47. Targeted Issue Advertising and Legislative Strategy: The Inside Ends of Outside Lobbying

Author

Hall, Richard L. and Reynolds, Molly E.

Published

2012

48. Wave equation and dispersion relations for a compressible rotating fluid

Author

Marin-Antuna, Jose, Hall, Richard L., and Saad, Nasser

Subjects

Mathematical Physics

Abstract

A fundamental non-classical fourth-order partial differential equation to describe small amplitude linear oscillations in a rotating compressible fluid, is obtained. The dispersion relations for such a fluid, and the different regions of the group and phase velocity are analyzed., Comment: 9 pages

Published

2006

49. Criterion for polynomial solutions to a class of linear differential equation of second order

Author

Saad, Nasser, Hall, Richard L., and Ciftci, Hakan

Subjects

Mathematical Physics, 34B40, 81Q05, 81Q15

Abstract

We consider the differential equations y''=\lambda_0(x)y'+s_0(x)y, where \lambda_0(x), s_0(x) are C^{\infty}-functions. We prove (i) if the differential equation, has a polynomial solution of degree n >0, then \delta_n=\lambda_n s_{n-1}-\lambda_{n-1}s_n=0, where \lambda_{n}= \lambda_{n-1}^\prime+s_{n-1}+\lambda_0\lambda_{n-1}\hbox{and}\quad s_{n}=s_{n-1}^\prime+s_0\lambda_{k-1},\quad n=1,2,.... Conversely (ii) if \lambda_n\lambda_{n-1}\ne 0 and \delta_n=0, then the differential equation has a polynomial solution of degree at most n. We show that the classical differential equations of Laguerre, Hermite, Legendre, Jacobi, Chebyshev (first and second kind), Gegenbauer, and the Hypergeometric type, etc, obey this criterion. Further, we find the polynomial solutions for the generalized Hermite, Laguerre, Legendre and Chebyshev differential equations., Comment: 12 pages

Published

2006

50. Study of a class of non-polynomial oscillator potentials

Author

Saad, Nasser, Hall, Richard L., and Ciftci, Hakan

Subjects

Mathematical Physics, 34B40, 81Q05, 81Q15

Abstract

We develop a variational method to obtain accurate bounds for the eigenenergies of H = -Delta + V in arbitrary dimensions N>1, where V(r) is the nonpolynomial oscillator potential V(r) = r^2 + lambda r^2/(1+gr^2), lambda in (-infinity,\infinity), g>0. The variational bounds are compared with results previously obtained in the literature. An infinite set of exact solutions is also obtained and used as a source of comparison eigenvalues., Comment: 16 pages

Published

2006