Acoustic modes in He I and He II in the presence of an alternating electric field
| Autor: | Tomchenko, Maksim D. |
|---|---|
| Rok vydání: | 2019 |
| Předmět: | |
| Zdroj: | Fiz. Nizk. Temp. 46, 584 (2020) [Low Temp. Phys. 46, 490 (2020)] |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1063/10.0001053 |
| Popis: | By solving the equations of ordinary and two-fluid hydrodynamics, we study the oscillatory modes in isotropic nonpolar dielectrics He I and He II in the presence of an alternating electric field $\textbf{E}=E_{0}\textbf{i}_{z}\sin{(k_{0}z-\omega_{0} t)}$. The electric field and oscillations of the density become ``coupled,'' since the density gradient causes a spontaneous polarization $\textbf{P}_{s}$, and the electric force contains the term $(\textbf{P}_{s}\nabla)\textbf{E}$. The analysis shows that the field $\textbf{E}$ changes the velocities of first and second sounds, propagating along $\textbf{E}$, by the formula $u_{j}\approx c_{j}+\chi_{j} E_{0}^{2}$ (where $j=1, 2$; $c_{j}$ is the velocity of the $j$-th sound for $E_{0}=0$, and $\chi_{j}$ is a constant). We have found that the field $\textbf{E}$ jointly with a wave of the first (second) sound $(\omega,k)$ should create in He II hybrid acousto-electric (thermo-electric) density waves $(\omega + l \omega_{0},k + lk_{0})$, where $l=\pm 1, \pm 2, \ldots$. The amplitudes of acousto-electric waves and the quantity $|u_{1}-c_{1}|$ are negligibly small, but they should increase in the resonance way at definite $\omega$ and $\omega_{0}$. Apparently, the first resonance corresponds to the decay of a photon into two phonons with the transfer of a momentum to the whole liquid. Therefore, the spectrum of an electromagnetic signal should contain a narrow absorption line like that in the M\"{o}ssbauer effect. Comment: 23 pages, 1 figure; v3: accepted version |
| Databáze: | arXiv |
| Externí odkaz: |
|