Add to ORKGThe concept that heavy fermions are close to a quantum critical point and that this proximity determines their physical behavior has opened new perspectives in the study of these systems. It has provided a new paradigm for understanding and probing the properties of these strongly correlated materials. Scaling ideas were important to establish this approach. We give below a brief and personal account of the genesis of some of these ideas 15 years ago, their implications and the future prospects for this exciting field
The electronic properties of heavy fermion alloys are dominated by spin fluctuations which are expec...
Quantum phase transitions are strongly relevant in a number of fields, ranging from condensed matter...
International audienceWe present a paper of the critical phenomena around the quantum critical point...
The concept that heavy fermions are close to a quantum critical point and that this proximity determ...
The concept that heavy fermions are close to a quantum critical point and that this proximity determ...
4 pages, 2 figures; proceedings to the LT23 conference, Hiroshima (02)We review the anomalous proper...
We report thermodynamic measurements in a magnetic-field-driven quantum critical point of a heavy fe...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
At any pressure-sensitive quantum critical point (QCP), the volume thermal expansion coefficient is ...
Quantum critical properties of strongly correlated metals in heavy fermion systems are investigated....
International audienceWe consider quantum critical points in which quantum fluctuations associated w...
heavy fermion metals, correlated electron systems, skin effect, quantum criticality Kumpula campus l...
We show that the assumptions of critical scaling imply essential singularities in the limit where Tc...
This book on quantum phase transitions has been written by one of the pioneers in the application of...
This book focuses on the topological fermion condensation quantum phase transition (FCQPT), a phenom...
The electronic properties of heavy fermion alloys are dominated by spin fluctuations which are expec...
Quantum phase transitions are strongly relevant in a number of fields, ranging from condensed matter...
International audienceWe present a paper of the critical phenomena around the quantum critical point...
The concept that heavy fermions are close to a quantum critical point and that this proximity determ...
The concept that heavy fermions are close to a quantum critical point and that this proximity determ...
4 pages, 2 figures; proceedings to the LT23 conference, Hiroshima (02)We review the anomalous proper...
We report thermodynamic measurements in a magnetic-field-driven quantum critical point of a heavy fe...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
At any pressure-sensitive quantum critical point (QCP), the volume thermal expansion coefficient is ...
Quantum critical properties of strongly correlated metals in heavy fermion systems are investigated....
International audienceWe consider quantum critical points in which quantum fluctuations associated w...
heavy fermion metals, correlated electron systems, skin effect, quantum criticality Kumpula campus l...
We show that the assumptions of critical scaling imply essential singularities in the limit where Tc...
This book on quantum phase transitions has been written by one of the pioneers in the application of...
This book focuses on the topological fermion condensation quantum phase transition (FCQPT), a phenom...
The electronic properties of heavy fermion alloys are dominated by spin fluctuations which are expec...
Quantum phase transitions are strongly relevant in a number of fields, ranging from condensed matter...
International audienceWe present a paper of the critical phenomena around the quantum critical point...