Multiplet effects in the electronic structure of heavy rare-earth metals

Theoretical and Computational Studies of Strongly Correlated Electron Systems : Dynamical Mean Field Theory, X-ray Absorption Spectroscopy and Analytical Continuation

Schött, Johan

January 2018

This thesis encompasses theoretical and computational studies of strongly correlated elec-tron syste...

Unifying first-principles and model approaches for strongly correlated materials : Interplay between long- and short-range correlations

Nilsson, Fredrik

January 2019

In materials with open 3$d$ and 4$f$ shells the valence electrons are relatively localized around th...

Electronic Excitations and Correlation Effects in Metals

Re Gexp
Im Gexp
Adolfo G. Eguiluz
Wolf-dieter Schöne

August 2016

Theoretical descriptions of the spectrum of electronic excitations in real metals have not yet reach...

Multiplet effects in the electronic structure of heavy rare-earth metals

Lebegue, S.
Svane, A.
Katsnelson, M.I.
Lichtenstein, A.I.
Eriksson, O.

January 2006

The spectroscopic properties of elemental terbium, dysprosium, holmium, and erbium are investigated ...

Multiplet effects in the electronic structure of light rare-earth metals

Lebegue, S.
Svane, A.
Katsnelson, M.I.
Lichtenstein, A.I.
Eriksson, O.

January 2006

Contains fulltext : 35623.pdf (publisher's version ) (Open Access)The excited-stat...

Understanding the valency of rare earths from first-principles theory

Strange, Paul
Svane, Axel
Temmerman, Walter
Szotek, Zdzislawa
Winter, Herman

June 1999

The rare-earth metals have high magnetic moments and a diverse range of magnetic structures. Their m...

Cohesive and Spectroscopic properties of the Lanthanides within the Hubbard I Approximation

Locht, Inka Laura Marie

January 2015

We describe the rare-earth elements using the Hubbard I approximation. We show that the theory repro...

Electronic Structure of Strongly Correlated Systems

V. N. Antonov
L. V. Bekenov
A. N. Yaresko

January 2011

The article reviews the rich phenomena of metal-insulator transitions, anomalous metalicity, taking ...

Realistic Modelling of Correlated Metals within Dynamical Mean-Field Theory

Appelt, Wilhelm H.

November 2016

In this study we present results of electronic structure calculations for metals, based on density f...

Electronic structure studies and method development for complex materials

Östlin, Andreas

January 2015

Over the years electronic structure theory has proven to be a powerful method with which one can pro...

Energy band structure, fermi surfaces, magnetization densities, and properties of the rare-earths and actinides

Freeman, A.J.

January 1977

Some aspects of the predictions of energy band theory for both the rare earths and actinides and the...

ARPES band maps of ferromagnetic iron: Theoretical simulation including e-e correlation

MANGHI, Franca
Bellini V
Rozzi CA

January 2007

Many-body effects influence the energy-versus-momentum relation that is measured in angle resolvedph...

Effect of correlation on the band structure of cerium

Rao, R. S.
Majumdar, C. K.
Shastry, B. S.
Singh, R. P.

January 1975

The electronic band structure of f.c.c. phase of the rare earth metal cerium (α-cerium) has b...

Electronic States of Heavy Fermion Materials

Sutton, Aaron Benjamin

June 2016

The de Haas-van Alphen (dHvA) effect is one of the most powerful and straightforward methods of dete...

Electronic Structure of the transactinide atoms:The heaviest Metals: Science and Technology of the Actinides and Byond

Eliav, Ephraim
Borschevsky, Anastasia
Kaldor, Uzi

September 2018

Electronic structure and atomic properties of the transactinide or superheavy elements (SHEs) are re...

Theoretical and Computational Studies of Strongly Correlated Electron Systems : Dynamical Mean Field Theory, X-ray Absorption Spectroscopy and Analytical Continuation

Schött, Johan

January 2018

This thesis encompasses theoretical and computational studies of strongly correlated elec-tron syste...

Unifying first-principles and model approaches for strongly correlated materials : Interplay between long- and short-range correlations

Nilsson, Fredrik

January 2019

In materials with open 3$d$ and 4$f$ shells the valence electrons are relatively localized around th...

Electronic Excitations and Correlation Effects in Metals

Re Gexp
Im Gexp
Adolfo G. Eguiluz
Wolf-dieter Schöne

August 2016

Theoretical descriptions of the spectrum of electronic excitations in real metals have not yet reach...

Multiplet effects in the electronic structure of heavy rare-earth metals

Lebegue, S.
Svane, A.
Katsnelson, M.I.
Lichtenstein, A.I.
Eriksson, O.

January 2006

The spectroscopic properties of elemental terbium, dysprosium, holmium, and erbium are investigated ...

Multiplet effects in the electronic structure of light rare-earth metals

Lebegue, S.
Svane, A.
Katsnelson, M.I.
Lichtenstein, A.I.
Eriksson, O.

January 2006

Contains fulltext : 35623.pdf (publisher's version ) (Open Access)The excited-stat...

Understanding the valency of rare earths from first-principles theory

Strange, Paul
Svane, Axel
Temmerman, Walter
Szotek, Zdzislawa
Winter, Herman

June 1999

The rare-earth metals have high magnetic moments and a diverse range of magnetic structures. Their m...

Cohesive and Spectroscopic properties of the Lanthanides within the Hubbard I Approximation

Locht, Inka Laura Marie

January 2015

We describe the rare-earth elements using the Hubbard I approximation. We show that the theory repro...

Electronic Structure of Strongly Correlated Systems

V. N. Antonov
L. V. Bekenov
A. N. Yaresko

January 2011

The article reviews the rich phenomena of metal-insulator transitions, anomalous metalicity, taking ...

Realistic Modelling of Correlated Metals within Dynamical Mean-Field Theory

Appelt, Wilhelm H.

November 2016

In this study we present results of electronic structure calculations for metals, based on density f...

Electronic structure studies and method development for complex materials

Östlin, Andreas

January 2015

Over the years electronic structure theory has proven to be a powerful method with which one can pro...

Energy band structure, fermi surfaces, magnetization densities, and properties of the rare-earths and actinides

Freeman, A.J.

January 1977

Some aspects of the predictions of energy band theory for both the rare earths and actinides and the...

ARPES band maps of ferromagnetic iron: Theoretical simulation including e-e correlation

MANGHI, Franca
Bellini V
Rozzi CA

January 2007

Many-body effects influence the energy-versus-momentum relation that is measured in angle resolvedph...

Effect of correlation on the band structure of cerium

Rao, R. S.
Majumdar, C. K.
Shastry, B. S.
Singh, R. P.

January 1975

The electronic band structure of f.c.c. phase of the rare earth metal cerium (α-cerium) has b...

Electronic States of Heavy Fermion Materials

Sutton, Aaron Benjamin

June 2016

The de Haas-van Alphen (dHvA) effect is one of the most powerful and straightforward methods of dete...

Electronic Structure of the transactinide atoms:The heaviest Metals: Science and Technology of the Actinides and Byond

Eliav, Ephraim
Borschevsky, Anastasia
Kaldor, Uzi

September 2018

Electronic structure and atomic properties of the transactinide or superheavy elements (SHEs) are re...

Theoretical and Computational Studies of Strongly Correlated Electron Systems : Dynamical Mean Field Theory, X-ray Absorption Spectroscopy and Analytical Continuation

Schött, Johan

January 2018

This thesis encompasses theoretical and computational studies of strongly correlated elec-tron syste...

Unifying first-principles and model approaches for strongly correlated materials : Interplay between long- and short-range correlations

Nilsson, Fredrik

January 2019

In materials with open 3$d$ and 4$f$ shells the valence electrons are relatively localized around th...

Electronic Excitations and Correlation Effects in Metals

Re Gexp
Im Gexp
Adolfo G. Eguiluz
Wolf-dieter Schöne

August 2016

Theoretical descriptions of the spectrum of electronic excitations in real metals have not yet reach...

Multiplet effects in the electronic structure of heavy rare-earth metals

Abstract

Extracted data

Multiplet effects in the electronic structure of heavy rare-earth metals

Abstract

Extracted data

Related items

Related items