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- Jesús S. Dehesa

Discipline name
D-index
D-index (Discipline H-index) only includes papers and citation values for an examined
discipline in contrast to General H-index which accounts for publications across all
disciplines.
Citations
Publications
World Ranking
National Ranking

Mathematics
D-index
38
Citations
4,976
221
World Ranking
1604
National Ranking
28

- Quantum mechanics
- Electron
- Mathematical analysis

Quantum mechanics, Orthogonal polynomials, Fisher information, Mathematical analysis and Classical orthogonal polynomials are his primary areas of study. His works in Entropy, Quantum entanglement, Excited state, Harmonic oscillator and Ground state are all subjects of inquiry into Quantum mechanics. Jesús S. Dehesa focuses mostly in the field of Orthogonal polynomials, narrowing it down to topics relating to Mathematical physics and, in certain cases, Quantum.

His Fisher information study integrates concerns from other disciplines, such as Probability distribution, Position and momentum space, Statistical physics, Momentum and Position. His Statistical physics research is multidisciplinary, relying on both Information theory and Logarithm. His work in Classical orthogonal polynomials addresses issues such as Discrete orthogonal polynomials, which are connected to fields such as Chebyshev polynomials and Difference polynomials.

- Position and momentum information entropies of the D-dimensional harmonic oscillator and hydrogen atom (221 citations)
- The Fisher-Shannon information plane, an electron correlation tool. (210 citations)
- Insight into the informational-structure behavior of the Diels-Alder reaction of cyclopentadiene and maleic anhydride. (158 citations)

Jesús S. Dehesa mostly deals with Quantum mechanics, Fisher information, Orthogonal polynomials, Statistical physics and Wave function. His Fisher information research is multidisciplinary, incorporating perspectives in Probability distribution, Probability density function, Physical system, Information theory and Position. His Orthogonal polynomials study which covers Laguerre polynomials that intersects with Stationary state.

His biological study deals with issues like Quantum state, which deal with fields such as Quantum number. As a part of the same scientific family, Jesús S. Dehesa mostly works in the field of Wave function, focusing on Mathematical physics and, on occasion, Quantum system and Harmonic oscillator. His study looks at the intersection of Classical orthogonal polynomials and topics like Discrete orthogonal polynomials with Hahn polynomials.

- Quantum mechanics (33.90%)
- Fisher information (21.36%)
- Orthogonal polynomials (20.68%)

- Quantum mechanics (33.90%)
- Fisher information (21.36%)
- Statistical physics (18.64%)

His main research concerns Quantum mechanics, Fisher information, Statistical physics, Wave function and Laguerre polynomials. Jesús S. Dehesa works mostly in the field of Quantum mechanics, limiting it down to topics relating to State and, in certain cases, Quantum system and Position. His studies in Fisher information integrate themes in fields like Hydrogen, Finite set, Information theory, Upper and lower bounds and Spin-½.

Jesús S. Dehesa has researched Statistical physics in several fields, including Probability distribution, Harmonic, Quantum state, Quantum and Entropy. His studies deal with areas such as Hamiltonian and Logarithm as well as Wave function. His biological study spans a wide range of topics, including Stationary state, Gegenbauer polynomials, Harmonic oscillator and Orthogonal polynomials.

- Insight into the informational-structure behavior of the Diels-Alder reaction of cyclopentadiene and maleic anhydride. (158 citations)
- Monotone measures of statistical complexity (36 citations)
- Rényi entropies of the highly-excited states of multidimensional harmonic oscillators by use of strong Laguerre asymptotics (35 citations)

- Quantum mechanics
- Electron
- Mathematical analysis

Jesús S. Dehesa mainly focuses on Quantum mechanics, Statistical physics, Laguerre polynomials, Wave function and Quantum state. His work deals with themes such as Probability distribution, Fisher information and Harmonic, which intersect with Statistical physics. His research integrates issues of Information theory, Expression and Classical mechanics in his study of Fisher information.

The Laguerre polynomials study combines topics in areas such as Bound state, Stationary state and Orthogonal polynomials. His Wave function research includes themes of Entropy and State. His Quantum state research incorporates themes from Excited state, Quantum number, Work and Effective nuclear charge.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Position and momentum information entropies of the D-dimensional harmonic oscillator and hydrogen atom

R. J. Yáñez;W. Van Assche;J. S. Dehesa.

Physical Review A **(1994)**

274 Citations

The Fisher-Shannon information plane, an electron correlation tool.

E. Romera;J. S. Dehesa.

Journal of Chemical Physics **(2004)**

248 Citations

The Fisher-Shannon information plane, an electron correlation tool.

E. Romera;J. S. Dehesa.

Journal of Chemical Physics **(2004)**

248 Citations

Insight into the informational-structure behavior of the Diels-Alder reaction of cyclopentadiene and maleic anhydride.

Moyocoyani Molina-Espíritu;Rodolfo O. Esquivel;Rodolfo O. Esquivel;Miroslav Kohout;Juan Carlos Angulo.

Journal of Molecular Modeling **(2014)**

210 Citations

The Fisher information of single-particle systems with a central potential

E. Romera;P. Sánchez-Moreno;J.S. Dehesa.

Chemical Physics Letters **(2005)**

182 Citations

The Fisher information of single-particle systems with a central potential

E. Romera;P. Sánchez-Moreno;J.S. Dehesa.

Chemical Physics Letters **(2005)**

182 Citations

Orthogonal Polynomials and their Applications

M. Alfaro;J. S. Dehesa;F. J. Marcellan.

Mathematics of Computation **(1988)**

153 Citations

Orthogonal Polynomials and their Applications

M. Alfaro;J. S. Dehesa;F. J. Marcellan.

Mathematics of Computation **(1988)**

153 Citations

A dynamical theory of the giant dipole resonance in nuclei

G.E. Brown;J.S. Dehesa;J. Speth.

Nuclear Physics **(1979)**

150 Citations

Quantum information entropies and orthogonal polynomials

Jesús S. Dehesa;Andrei Martínez-Finkelshtein;Andrei Martínez-Finkelshtein;Jorge Sánchez-Ruiz;Jorge Sánchez-Ruiz.

Journal of Computational and Applied Mathematics **(2001)**

133 Citations

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