On electric fields created by quantized vortices

Abstract: It is shown that in a magnetic field quantized vortices in a superfluid obtain a real quantized electric charge concentrated in the vortex core. This charge is compensated by an opposite surface charge located at a macroscopic distance from the vortex axis. It is determined that the polarization caused by the vortex velocity field does not give rise to electric fields outside an infinite cylinder. Observation of electric fields created by the vortices is possible only near the end surfaces of the cylinder whic… Show more

“…We see a fundamental difference of the expressions (28) and (29) from the similar expressions (21) in the previous section. Because of this difference, in this case the system energy E ¼ h0jĤj0i is a functional in the form of an infinite series in powers of U and U þ .…”

“…2 and 17) and in terms of the two-particle order parameter U(r 1 , r 2 ). [18][19][20][21] It is found that there are fundamental differences between these two approaches. In applying the first method to composite bosons the effects related to the exchange interaction are completely lost, which in some cases, particularly in the case of the Coulomb interaction between the particles, leads to qualitatively incorrect results.…”

“…It is easy to see that the operatorsb þ k andb k satisfy the commutation relations different from Bose ones. They satisfy the Bose statistics for k 6 ¼ k 0 and the Pauli principlê 26 The authors in a number of works, [18][19][20][21] developing the approach of Keldysh, studied properties of dilute electronhole systems, caused by their internal structure. In this section we generalize the theory from Refs.…”

“…17 in several works of the authors, [18][19][20][21] there was developed fundamentally different approach to description of the effects associated with the internal motion of complex bosons. The authors simulated the Bose system with a dilute electron-hole gas, particles of which interact with each other following the Coulomb law.…”

Two approaches to the description of dilute superfluid Bose systems

“…We see a fundamental difference of the expressions (28) and (29) from the similar expressions (21) in the previous section. Because of this difference, in this case the system energy E ¼ h0jĤj0i is a functional in the form of an infinite series in powers of U and U þ .…”

“…2 and 17) and in terms of the two-particle order parameter U(r 1 , r 2 ). [18][19][20][21] It is found that there are fundamental differences between these two approaches. In applying the first method to composite bosons the effects related to the exchange interaction are completely lost, which in some cases, particularly in the case of the Coulomb interaction between the particles, leads to qualitatively incorrect results.…”

“…It is easy to see that the operatorsb þ k andb k satisfy the commutation relations different from Bose ones. They satisfy the Bose statistics for k 6 ¼ k 0 and the Pauli principlê 26 The authors in a number of works, [18][19][20][21] developing the approach of Keldysh, studied properties of dilute electronhole systems, caused by their internal structure. In this section we generalize the theory from Refs.…”

“…17 in several works of the authors, [18][19][20][21] there was developed fundamentally different approach to description of the effects associated with the internal motion of complex bosons. The authors simulated the Bose system with a dilute electron-hole gas, particles of which interact with each other following the Coulomb law.…”

Two approaches to the description of dilute superfluid Bose systems

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