The Stark effect in superfluid $^4$He with relative flows
- URL: http://arxiv.org/abs/2009.06036v2
- Date: Thu, 1 Oct 2020 15:06:57 GMT
- Title: The Stark effect in superfluid $^4$He with relative flows
- Authors: A.S. Rybalko, S.P. Rubets, E.Ya. Rudavskii, R.V. Golovashchenko, S.I.
Tarapov, V.N. Derkach, V.D. Khodusov, A.S. Naumovets, A.J. Nurmagambetov
- Abstract summary: Stark-type effect is observed in superfluid $4$He in presence of relative laminar flows.
Line of absorption/radiation is observed in the EM spectrum, the frequency of which - 180 GHz - corresponds to the roton minimum.
- Score: 0.0
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We conducted series of experiments on observing a Stark-type effect in
superfluid $^4$He in presence of relative laminar flows of the normal and
superfluid components. It is designed a measurement cell which allows us to
simultaneously create hydrodynamic flows in the liquid and to carry out
high-frequency radio-measurements at external electric field. We used a
dielectric disk resonator that made possible to cover a wide frequency range.
In our experiments it was registered the spectrum of the dielectric disk
resonator modes, as well as narrow lines of absorption of a microwave radiation
in He II on its background and in different conditions. We discovered that
having in the liquid helium a relative motion of the normal and superfluid
fractions in the temperature range of 1.4$\div$2.17 K the narrow line of
absorption/radiation is observed in the EM spectrum, the frequency of which -
180 GHz - corresponds to the roton minimum. This line splits in a constant
electric field. Note that in a weak electric field the value of splitting
depends linearly on the electric field strength, i.e. the linear Stark effect
is detected. It is found that with the external electric field increasing both
split lines are displaced towards more low frequencies side. The obtained data
set could be described by an empirical formula, taking into account as the
linear part of the Stark effect, as well as a quadratic addition, related to
the polarization part. The data point out on having particles or excitations in
the liquid helium with the dipole moment $\sim 10^{-4}$ D, that in four order
less of the characteristic dipole moment of polar molecules. The comparison of
our findings to values of the electric dipole moment (EDM) of elementary
particles and nuclei is also performed. We sum up with brief discussion of
extensions of the known theoretical models and possible mechanisms of the EDM
production.
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