Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds

Strongly correlated electron systems are among the most active research topics in modern condensed matter physics. In strongly correlated materials the electron interaction energies dominate the electron kinetic energy which leads to unconventional properties. Heavy fermion compounds form one...

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Autores principales: Prokofiev, Andrey, Paschen, Silke
Formato: Online
Lenguaje:inglés
Publicado: InTechOpen 2021
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author Prokofiev, Andrey
Paschen, Silke
author_browse Paschen, Silke
Prokofiev, Andrey
author_facet Prokofiev, Andrey
Paschen, Silke
author_sort Prokofiev, Andrey
collection Directory of Open Access Books
description Strongly correlated electron systems are among the most active research topics in modern condensed matter physics. In strongly correlated materials the electron interaction energies dominate the electron kinetic energy which leads to unconventional properties. Heavy fermion compounds form one of the classes of such materials. In heavy fermion compounds the interaction of itinerant electrons with local magnetic moments generates quasiparticles with masses up to several 1000 electron masses. This may be accompanied by exciting properties, such as unconventional superconductivity in a magnetic environment, non-Fermi liquid behavior and quantum criticality. Strong electronic correlations are responsible for physical phenomena on a low energy scale. Consequently, these phenomena have to be studied at low temperatures. This, in turn, requires ultimate quality of single crystals to avoid that the low temperature intrinsic properties are covered by extrinsic effects due to off-stoichiometry, impurities or other crystal imperfections.
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spelling doab-20.500.12854ir-295512025-05-08T07:11:06Z Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds Prokofiev, Andrey Paschen, Silke stoichiometry growth crystal stoichiometry growth crystal Cerium Electrical resistivity and conductivity Flux (metallurgy) Palladium Silicon Single crystal Tin Strongly correlated electron systems are among the most active research topics in modern condensed matter physics. In strongly correlated materials the electron interaction energies dominate the electron kinetic energy which leads to unconventional properties. Heavy fermion compounds form one of the classes of such materials. In heavy fermion compounds the interaction of itinerant electrons with local magnetic moments generates quasiparticles with masses up to several 1000 electron masses. This may be accompanied by exciting properties, such as unconventional superconductivity in a magnetic environment, non-Fermi liquid behavior and quantum criticality. Strong electronic correlations are responsible for physical phenomena on a low energy scale. Consequently, these phenomena have to be studied at low temperatures. This, in turn, requires ultimate quality of single crystals to avoid that the low temperature intrinsic properties are covered by extrinsic effects due to off-stoichiometry, impurities or other crystal imperfections. 2021-02-10T12:58:18Z 2019-10-04 14:34:33 2020-04-01T14:06:48Z 2016-08-01 23:55 2019-10-04 14:34:33 2020-04-01T14:06:48Z 2016-12-31 23:55:55 2019-10-04 14:34:33 2020-04-01T14:06:48Z 2012 chapter 612610 OCN: 1030820503 http://library.oapen.org/handle/20.500.12657/32335 https://directory.doabooks.org/handle/20.500.12854/29551 eng open access image/jpeg image/jpeg image/jpeg image/jpeg image/jpeg n/a n/a n/a n/a n/a https://library.oapen.org/bitstream/20.500.12657/32335/1/612610.pdf https://library.oapen.org/bitstream/20.500.12657/32335/1/612610.pdf https://library.oapen.org/bitstream/20.500.12657/32335/1/612610.pdf https://library.oapen.org/bitstream/20.500.12657/32335/1/612610.pdf https://library.oapen.org/bitstream/20.500.12657/32335/1/612610.pdf InTechOpen 10.5772/29675 10.5772/29675 035ecc65-6737-43cf-a13a-6bdf67ce01f4 Modern Aspects of Bulk Crystal and Thin Film Preparation FP7 Ideas: European Research Council 7292b17b-f01a-4016-94d3-d7fb5ef9fb79 European Research Council (ERC) EU collection 227378 FP7 open access
spellingShingle stoichiometry
growth
crystal
stoichiometry
growth
crystal
Cerium
Electrical resistivity and conductivity
Flux (metallurgy)
Palladium
Silicon
Single crystal
Tin
Prokofiev, Andrey
Paschen, Silke
Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title_full Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title_fullStr Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title_full_unstemmed Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title_short Chapter 11 Crystal Growth and Stoichiometry of Strongly Correlated Intermetallic Cerium Compounds
title_sort chapter 11 crystal growth and stoichiometry of strongly correlated intermetallic cerium compounds
topic stoichiometry
growth
crystal
stoichiometry
growth
crystal
Cerium
Electrical resistivity and conductivity
Flux (metallurgy)
Palladium
Silicon
Single crystal
Tin
topic_facet stoichiometry
growth
crystal
stoichiometry
growth
crystal
Cerium
Electrical resistivity and conductivity
Flux (metallurgy)
Palladium
Silicon
Single crystal
Tin
url 612610
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