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Effective Vortex Mass from Microscopic Theory

Effective Vortex Mass from Microscopic Theory. June Seo Kim. Contents. 1. Vortex Motion through a Type-II Superconductor. 2. Vortex Dynamics. 3. Self-consistent Field Method. 4. Energy Spectra and Effective Mass. S. e. 2e. N. Vortex Motion through a Type-II Superconductor.

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Effective Vortex Mass from Microscopic Theory

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  1. Effective Vortex Mass from Microscopic Theory June Seo Kim

  2. Contents 1. Vortex Motion through a Type-II Superconductor 2. Vortex Dynamics 3. Self-consistent Field Method 4. Energy Spectra and Effective Mass

  3. S e 2e N Vortex Motion through a Type-II Superconductor Imagine a small magnet with its north/south poles on either side of a thin slab of type-II superconductor. On dragging the magnet the vortex moves too. Force needed to execute the motion is (m+M) am = mass of magnetM = effective mass of vortex M can be calculated within Caldeira-Leggett theory

  4. Vortex Dynamics Hamiltonian including pairing of superconductivity is represented in second quantization. : Energy of the excitation In real space, and are quasi-particle operators.

  5. Bogoliubov-de Genne equation The effect of magnetic field,

  6. Put and , then We have to transform one more time. Ignoring and putting , then

  7. Put be half-odd integers by periodic boundary condition.

  8. Self-consistent Field Method How can we solve this coupled differential equation? First of all, we have to treat the energy gap. If the energy gap is Absent, then we can find solution of these equations. Where J is a Bessel function and R is a boundary.

  9. and we can find and as combination of Bessel functions. Inserting into BdG equation and using orthogonality of Bessel functions, Therefore we have to know and .

  10. Self-consistency requires that the r-dependent gap function obey the relation for a given choice of the pairing interaction strength V. Put as initial condition. In iteration process, we can find exact gap function at zero temperature and finite temperatures . Moreover, and are change by the energy gap is changed. Therefore, we can calculate exact value of and . It is a self-consistent field method.

  11. Energy Spectra and Effective Mass Gap profile

  12. Energy Gap

  13. Energy Spectrum

  14. extended-to-extended Energy core-to-core core-to-extended Mass Equation and Transition Matrix Elements Transition matrix element between localized and extended states arenon-zero due to vortex motion.Second-order perturbation theory gives effective mass.

  15. Effective Mass At zero temperature,

  16. Summary We calculate the effective mass of a single quantized vortex in the BCS superconductor at finite temperature. Based on self-consistent numerical diagonalization of the BDG equation we find the effective mass per unit length of vortex at finite temperatures. The mass reaches a maximum value at and decreases continuously to zero at .

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