وبلاگ بلیان

Heavy-Fermion Systems (Handbook of Metal Physics) (Handbook of Metal Physics)

معرفی کتاب «Heavy-Fermion Systems (Handbook of Metal Physics) (Handbook of Metal Physics)» نوشتهٔ Prasanta Misra B.Sc (Hons) and M.Sc in Physics (Utkal University Bhubaneswar India) Ph.D. in Physics (Tufts University Medford U.S.A.) Post-Doctoral Research in Solid State Physics (University of Texas Austin U.S.A.)، منتشرشده توسط نشر Elsevier Science & Technology Books در سال 1570. این کتاب در 20 صفحه، فرمت pdf، زبان انگلیسی ارائه شده است.

The book on Heavy-Fermion Systems is a part of the Book series "Handbook of Metal Physics", each volume of which is written to facilitate the research of Ph.D. students, faculty and other researchers in a specific area. The Heavy-Fermions (sometimes known as Heavy-Electrons) is a loosely defined collection of intermetallic compounds containing rare-earth (mostly Ce) or actinide (mostly U) elements. These unusual names were given due to the large effective mass (100-1,000 times greater than the mass of a free electron) below a critical temperature. They have a variety of ground states including superconducting, antiferromagnetic, paramagnetic or semiconducting. Some display unusual magnetic properties such as magnetic quantum critical point and metamagnetism. This book is essentially a summary as well as a critical review of the theoretical and experimental work done on Heavy Fermions. · Extensive research references. · Comprehensive review of a very rapidly growing number of theories. · Summary of all important experiments. · Comparison with other highly correlated systems such as High-Tc Superconductors. · Possible Technological applications. The book on Heavy-Fermion Systems is a part of the Book series "Handbook of Metal Physics", each volume of which is written to facilitate the research of Ph.D. students, faculty and other researchers in a specific area. The Heavy-Fermions (sometimes known as Heavy-Electrons) is a loosely defined collection of intermetallic compounds containing rare-earth (mostly Ce) or actinide (mostly U) elements. These unusual names were given due to the large effective mass (100-1,000 times greater than the mass of a free electron) below a critical temperature. They have a variety of ground states including superconducting, antiferromagnetic, paramagnetic or semiconducting. Some display unusual magnetic properties such as magnetic quantum critical point and metamagnetism. This book is essentially a summary as well as a critical review of the theoretical and experimental work done on Heavy Fermions.

· Extensive research references.
· Comprehensive review of a very rapidly growing number of theories.
· Summary of all important experiments.
· Comparison with other highly correlated systems such as High-Tc Superconductors.
· Possible Technological applications. The book on Heavy-Fermion Systems is a part of the Book series "Handbook of Metal Physics", each volume of which is written to facilitate the research of Ph. D. students, faculty and other researchers in a specific area. The Heavy-Fermions (sometimes known as Heavy-Electrons) is a loosely defined collection of intermetallic compounds containing rare-earth (mostly Ce) or actinide (mostly U) elements. These unusual names were given due to the large effective mass (100-1,000 times greater than the mass of a free electron) below a critical temperature. They have a variety of ground states including superconducting, antiferromagnetic, paramagnetic or semiconducting. Some display unusual magnetic properties such as magnetic quantum critical point and metamagnetism. This book is essentially a summary as well as a critical review of the theoretical and experimental work done on Heavy Fermions. Extensive research references. Comprehensive review of a very rapidly growing number of theories. Summary of all important experiments. Comparison with other highly correlated systems such as High-Tc Superconductors. Possible Technological applications 1. Overview of heavy fermion systems 2. Kondo lattice, mixed valence, and heavy fermions 3. Dynamical, extended dynamical, and cluster dynamical mean-field theories: (DMFT, EDMFT, and cluster DMFT) 4. Fermi-liquid, heavy Fermi-liquid, and non-Fermi-liquid models 5. Metamagnetism in heavy fermions (experimental review) 6. Theory of metamagnetism in heavy fermions 7. Heavy fermion superconductors (Ce-based compounds) 8. U-based superconducting compounds 9. Filled skutterdites and transuranium heavy fermion superconductors 10. Brief review of theories of heavy fermion superconductivity 11. Kondo insulators.
دانلود کتاب Heavy-Fermion Systems (Handbook of Metal Physics) (Handbook of Metal Physics)