- Quantum phase transition
In
physics , a quantum phase transition (QPT) is aphase transition between differentquantum phases (phases of matter at zerotemperature ). Contrary to classical phase transitions, quantum phase transitions can only be accessed by varying a physical parameter - such asmagnetic field or pressure - atabsolute zero temperature. The transition describes an abrupt change in theground state of a many-body system due to its quantum fluctuations. Such quantum phase transitions can befirst-order phase transition or continuous.To understand quantum phase transitions, it is useful to contrast them to classical phase transitions (CPT) (also called thermal phase transitions). A CPT describes a cusp in the thermodynamic properties of a system. It signals a reorganization of the particles; A typical example is the
freezing transition of water describing the transition between liquid and ice. The classical phase transitions are driven by a competition between theenergy of a system and theentropy of its thermal fluctuations. A classical system does not have entropy at zero temperature and therefore no phase transition can occur.In contrast, even at zero temperature a quantum-mechanical system has quantum fluctuations and therefore can still support phase transitions. As a physical parameter is varied, quantum fluctuations can drive a phase transition into a different phase of matter. A canonical quantum phase transition is the well-studied
superconductor /insulator transition in disorderedthin film s which separates two quantum phases having different symmetries.Quantum magnet s provide another example of QPT.ee also
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Superconductor Insulator Transition References
*Cite book |last=Sachdev |first=Subir |title=Quantum Phase Transitions |publisher=Cambridge University Press |date=2000 |isbn=0521004543S
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