TY - JOUR
T1 - Low temperature dependence of the penetration depth in YBCO thin films revisited by mm wave transmission and surface impedance measurements
AU - Djordjevic, S.
AU - Farber, E.
AU - Deutscher, G.
AU - Bontemps, N.
AU - Durand, O.
AU - Contour, J. P.
PY - 2002/2/2
Y1 - 2002/2/2
N2 - We report results obtained with two different experimental set-ups in state-of-the-art YBCO thin films as similar as possible, prepared by pulsed laser deposition on LaAlO3 substrates: a surface impedance measurement on 4000 Å thick films using a parallel plate resonator (10 GHz), and a far infrared transmission (100-400 GHz) measurement which requires thinner (1000 Å) samples. The former measurement yields the temperature variation of the penetration depth λ(T) and the real part of the conductivity, provided the absolute value of λ(T) is known. The latter yields the imaginary part of the conductivity, hence the absolute value of the penetration depth, as well as its temperature dependence at the measuring frequency. Combining these two experiments, we establish a quasi-linear temperature variation of λ(T), with a 2 Å K-1 low temperature slope, and a fairly large zero temperature value λ(T = 0)=(1800±200) Å. The scattering rate of the quasi-particles calculated from a two-fluids model shows that the films compare to good quality single crystals, where twice a larger slope has been found. This surprising behavior is described in detail, including an in-depth structural analysis of the samples in order to evaluate their similarities. We find that the 10 GHz data obtained in the thickest films can be fitted to the dirty d-wave mode in the unitarity limit, with an extrapolated slope of 3 Å K-1, but yield a scattering rate that is difficult to reconcile with the high Tc (92 K) of the films.
AB - We report results obtained with two different experimental set-ups in state-of-the-art YBCO thin films as similar as possible, prepared by pulsed laser deposition on LaAlO3 substrates: a surface impedance measurement on 4000 Å thick films using a parallel plate resonator (10 GHz), and a far infrared transmission (100-400 GHz) measurement which requires thinner (1000 Å) samples. The former measurement yields the temperature variation of the penetration depth λ(T) and the real part of the conductivity, provided the absolute value of λ(T) is known. The latter yields the imaginary part of the conductivity, hence the absolute value of the penetration depth, as well as its temperature dependence at the measuring frequency. Combining these two experiments, we establish a quasi-linear temperature variation of λ(T), with a 2 Å K-1 low temperature slope, and a fairly large zero temperature value λ(T = 0)=(1800±200) Å. The scattering rate of the quasi-particles calculated from a two-fluids model shows that the films compare to good quality single crystals, where twice a larger slope has been found. This surprising behavior is described in detail, including an in-depth structural analysis of the samples in order to evaluate their similarities. We find that the 10 GHz data obtained in the thickest films can be fitted to the dirty d-wave mode in the unitarity limit, with an extrapolated slope of 3 Å K-1, but yield a scattering rate that is difficult to reconcile with the high Tc (92 K) of the films.
KW - 74.25 Nf Response to electromagnetic fields (nuclear magnetic resonance, surface impedance, etc.)
KW - 74.76 Bz High-T films
KW - 78.66 -w Optical properties of specific thin films
UR - http://www.scopus.com/inward/record.url?scp=0037750602&partnerID=8YFLogxK
U2 - 10.1007/s10051-002-8930-3
DO - 10.1007/s10051-002-8930-3
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AN - SCOPUS:0037750602
SN - 1434-6028
VL - 25
SP - 407
EP - 416
JO - European Physical Journal B
JF - European Physical Journal B
IS - 4
ER -