Destruction of superconductivity through phase fluctuations in ultrathin a -MoGe films

Abstract: We investigate the evolution of superconductivity with decreasing film thickness in ultrathin amorphous MoGe (a-MoGe) films using a combination of sub-Kelvin scanning tunneling spectroscopy, magnetic penetration depth measurements and magneto-transport measurements. We observe that superconductivity is strongly affected by quantum and classical phase fluctuations for thickness below 5 nm. The superfluid density is strongly suppressed by quantum phase fluctuations at low temperatures and evolves towards a linea… Show more

“…Comparing our results with different measurements of thin films such as δ − NbN 9 or MoGe 10,11 , we find a similar film-thickness dependency of T c and penetration depth λ order of magnitude. However, while in our and Ref.…”

“…We speculate that this is not a material issue but rather a fundamental difference between experimental techniques. We also find that our value of ξ in MoSi is on the same order of magnitude as determined from the upper critical field H c2 in MoSi 12 and MoGe 10,11 . It should be pointed out that in H c2 measurements there is some arbitrariness since it is determined as the field at which the resistivity drops by 50%.…”

“…In Ref. 11 ξ decreases with decreasing thickness only for d < 5 nm, and is ascribed to a transition between Fermionic and Bosinic SC. The difference between different ξ measurements could also be due to the difference between global and local superconductivity as detected by the different techniques.…”

Stiffness and coherence length measurements of ultra-thin superconductor, and implications to layered superconductors

“…Comparing our results with different measurements of thin films such as δ − NbN 9 or MoGe 10,11 , we find a similar film-thickness dependency of T c and penetration depth λ order of magnitude. However, while in our and Ref.…”

“…We speculate that this is not a material issue but rather a fundamental difference between experimental techniques. We also find that our value of ξ in MoSi is on the same order of magnitude as determined from the upper critical field H c2 in MoSi 12 and MoGe 10,11 . It should be pointed out that in H c2 measurements there is some arbitrariness since it is determined as the field at which the resistivity drops by 50%.…”

“…In Ref. 11 ξ decreases with decreasing thickness only for d < 5 nm, and is ascribed to a transition between Fermionic and Bosinic SC. The difference between different ξ measurements could also be due to the difference between global and local superconductivity as detected by the different techniques.…”

Stiffness and coherence length measurements of ultra-thin superconductor, and implications to layered superconductors

“…TABLE I. Experimental data of Tc, ∆(0), λ(0), n, and normal-state resistivity ρ N , mean free path and effective mas m * of an electron obtained from a number of experiments [8][9][10]13,14,[21][22][23][24][25][26][27][28][29][30] In this section, we analyze some of the published experimental data of n s (T ) which are extracted from the measured penetration depth using London's formula 2 : 11); blue and green curves respectively represent the contributions of 1st and 2nd terms of Eq. ( 11).…”

“…While the clean BCS limit can only be reached in specially prepared very clean single crystals, frequently available polycrystalline and thin film superconductors are in the opposite limit, i.e., dirty limit where, τ ∆ 0 / . In such a situation, n s (0) n. n s /n can be intuitively estimated based on the oscillator sum rule [38][39][40] that gets the result correct within a factor of order unity; here we outline this derivation and compare with the accurate expression of n s that has already been derived microscopically in this paper (10) and originally by Abrikosov and Gorkov 4 in the linear response theory.…”

Superfluid Density in Conventional Superconductors: From Clean to Strongly Disordered

Superconductivity in amorphous Re Zr (x≈6) thin films