Add to ORKGThis thesis describes experiments carried out on two novel strongly correlated electron systems. The first, FeCrAs, is a new material that has not been studied before, while the second, Sr3Ru2O7, has been previously shown to have a very novel so-called ‘nematic’ phase around the metamagnetic quantum critical end point (QCEP). For these studies, a new variation on an established method for measuring the field dependence of susceptibility in a BeCu clamp cell has been developed, and is described, as is a relaxation heat capacity cell that works from 4 K down to 300 mK. A method of growing stoichiometric crystals of the hexagonal iron-pnictide FeCrAs has been developed, and transport and thermodynamic measurements carried out. The in-...
The ferromagnetic (FM) phase transition of the itinerant electron-system Sr1−xCaxRuO3 can be tuned b...
We studied the phase diagram of Sr3Ru2O7 by means of heat capacity and magnetocaloric effect measure...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
This thesis describes experiments carried out on two novel strongly correlated electron systems. Th...
We report transport and thermodynamic properties of stoichiometric single crystals of the hexagonal ...
This work was supported by the Engineering and Physical Sciences Research Council, UK (grant EP/F044...
We report transport and thermodynamic properties of stoichiometric single crystals of the hexagonal...
The behavior of matter near zero temperature continuous phase transitions, or "quantum critical poin...
Bilayer strontium ruthenate Sr 3 Ru 2 O 7 displays pronounced non-Fermi liquid behavior at ...
Strongly correlated metals are known to give rise to a variety of exotic states. In particular, if ...
The search for novel quantum states is a fundamental theme in condensed matter physics. The almost b...
The physics of strongly correlated electron systems is remarkably rich and complex with the interact...
Highly correlated electron materials are systems in which many new states of matter can emerge. A pa...
This thesis summarizes experimental work using high pressure as a tuning parameter in the study of s...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
The ferromagnetic (FM) phase transition of the itinerant electron-system Sr1−xCaxRuO3 can be tuned b...
We studied the phase diagram of Sr3Ru2O7 by means of heat capacity and magnetocaloric effect measure...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
This thesis describes experiments carried out on two novel strongly correlated electron systems. Th...
We report transport and thermodynamic properties of stoichiometric single crystals of the hexagonal ...
This work was supported by the Engineering and Physical Sciences Research Council, UK (grant EP/F044...
We report transport and thermodynamic properties of stoichiometric single crystals of the hexagonal...
The behavior of matter near zero temperature continuous phase transitions, or "quantum critical poin...
Bilayer strontium ruthenate Sr 3 Ru 2 O 7 displays pronounced non-Fermi liquid behavior at ...
Strongly correlated metals are known to give rise to a variety of exotic states. In particular, if ...
The search for novel quantum states is a fundamental theme in condensed matter physics. The almost b...
The physics of strongly correlated electron systems is remarkably rich and complex with the interact...
Highly correlated electron materials are systems in which many new states of matter can emerge. A pa...
This thesis summarizes experimental work using high pressure as a tuning parameter in the study of s...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...
The ferromagnetic (FM) phase transition of the itinerant electron-system Sr1−xCaxRuO3 can be tuned b...
We studied the phase diagram of Sr3Ru2O7 by means of heat capacity and magnetocaloric effect measure...
Quantum criticality arises from continuous changes of matter at absolute zero temperature. It can ha...