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Quantum phase transitions and disorder: Griffiths singularities, infinite randomness, and smearing

October 30, 2018 - 11:00am
Thomas Vojta
Missouri University of Science and Technology

Phase transitions are fascinating phenomena in nature with consequences ranging from the large scale structure of the universe to exotic quantum phases at low temperatures. Many realistic systems contain impurities, defects and other forms of quenched disorder. This talk explores the consequences of such randomness on the properties of phase transitions. At zero-temperature quantum phase transitions, randomness can have particularly peculiar and strong effects. Often, rare strong disorder fluctuations and the rare spatial regions that support them dominate the physics close to the transition. They give rise to strong singularities in the free energy, the so-called quantum-Griffiths singularities. In some systems such as metallic magnets, the effects of are fluctuations can be even stronger, leading to a destruction of the
phase transition by smearing. These general results are illustrated using experiments in transition metal alloys and heavy fermion systems.

Host: Yi-Ting Hsu and Xiao Li

2205 John S. Toll Physics Building (CMTC Conference Room)