Publication
Physical Review B
Paper
Frequency distribution of phonons in a ballistic heat pulse determined by magnetic resonance
Abstract
The scattering of ballistic heat pulses by resonant spins in MgO: Fe2+, tuneable with a magnetic field, has been used to investigate the phonon frequency spectrum of the heat pulses at helium temperatures. A magnetic field of 60 kOe allowed phonons with frequencies up to 288 GHz to be studied. Good agreement was obtained with a Little-type calculation based on an acoustic-impedance model of interfacial thermal conduction. It is suggested that the lack of such agreement by most previous workers has often been due to inadequate preparation of surfaces. © 1972 The American Physical Society.