The temperonic crystal, a periodic structure with a unit cell made of two slabs sustaining temperature wavelike oscillations on short timescales, is introduced. The complex-valued dispersion relation for the temperature scalar field is investigated for the case of a localized temperature pulse. The dispersion discloses frequency gaps, tunable upon varying the slabs’ thermal properties. Results are shown for the paradigmatic case of a graphene-based temperonic crystal. The temperonic crystal extends the concept of superlattices to the realm of temperature waves, allowing for coherent control of ultrafast temperature pulses in the hydrodynamic regime at above liquid nitrogen temperatures.
Gandolfi, M., Giannetti, C., Banfi, F., Temperonic Crystal: A Superlattice for Temperature Waves in Graphene, <<PHYSICAL REVIEW LETTERS>>, 2020; 125 (26): N/A-N/A. [doi:10.1103/PhysRevLett.125.265901] [http://hdl.handle.net/10807/167261]
Temperonic Crystal: A Superlattice for Temperature Waves in Graphene
Gandolfi, Marco
Primo
;Giannetti, ClaudioPenultimo
;Banfi, Francesco
Ultimo
2020
Abstract
The temperonic crystal, a periodic structure with a unit cell made of two slabs sustaining temperature wavelike oscillations on short timescales, is introduced. The complex-valued dispersion relation for the temperature scalar field is investigated for the case of a localized temperature pulse. The dispersion discloses frequency gaps, tunable upon varying the slabs’ thermal properties. Results are shown for the paradigmatic case of a graphene-based temperonic crystal. The temperonic crystal extends the concept of superlattices to the realm of temperature waves, allowing for coherent control of ultrafast temperature pulses in the hydrodynamic regime at above liquid nitrogen temperatures.
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