Symmetry breaking in molecular ferroelectrics
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Abstract
Ferroelectrics are inseparable from symmetry breaking. Accompanying the paraelectric-to-ferroelectric phase transition, the paraelectric phase adopting one of the 32 crystallographic point groups is broken into subgroups belonging to one of the 10 ferroelectric point groups, i.e. C1, C2, C1h, C2v, C4, C4v, C3, C3v, C6 and C6v. The symmetry breaking is captured by the order parameter known as spontaneous polarization, whose switching under an external electric field results in a typical ferroelectric hysteresis loop. In addition, the responses of spontaneous polarization to other external excitations are related to a number of physical effects such as second-harmonic generation, piezoelectricity,…
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7Topics & keywords
Topics
Keywords
- Ferroelectricity
- Symmetry breaking
- Symmetry (geometry)
- Curie
- Explicit symmetry breaking
- Spontaneous symmetry breaking
- Condensed matter physics
- Phase (matter)
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