The present work deals with measurements of the thermal resistance at the b
oundary between a YBa2Cu3O7-delta (YBCO) thin film and its substrate. Above
the film's critical temperature (T-c) the YBCO strips were heated by Joule
effect. We used a method based on the third harmonic generation of the vol
tage across the strips. At high frequency of the heating current, the deduc
ed thermal resistance is dominated by the boundary effect. We used that met
hod to evaluate the possible enhancement of the thermal insulation between
the upper layer (YBCO thicker film) and the il MgO substrate when ten 2 x 8
mn thick YBCO / STO bi-layers are deposited between them. The strips were
600 mu m long and 40 mu m wide. The thermal resistance was measured at vari
ous frequencies and temperatures above T-c, both for a single layer taken a
s a reference sample and for a multilayer sample. Below T-c, we used an opt
ical heating of the strips to evaluate the insulation effect obtained with
multilayered sample. The ratio of thermal conductances was close to 11, thu
s demonstrating the insulation enhancement obtained with the multilayered s
tructure. The effect could lead to antenna-coupled micro-bolometers with im
proved performances.