Regensburg 2000 – scientific programme
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HL: Halbleiterphysik
HL 38: Poster III: Transporteigenschaften (1-14), Optische Eigenschaften (15-31), Grenz-/Oberfl
ächen (32-44), Heterostrukturen (45-57), Bauelemente (58-67), Gitterdynamik (68-69), Diamant (70), Raster-Tunnel-Mikroskopie (71)
HL 38.65: Poster
Thursday, March 30, 2000, 14:00–19:00, B
Study of hot spots in electronic devices by scanning thermoelastic microscopy — •Hans-Helmar Althaus1, F. Niebiesch1, J. Bolte1, D. Dietzel1, J. Pelzl1, P. Stelmaczyk2, A.D. Wieck2, and M. Versen3 — 1Experimentalphysik III, Festkörperspektroskopie, Ruhr-Universität Bochum — 2Experimentalphysik VI, Angewandte Festkörperphysik, Ruhr-Universität Bochum — 3Institut für Werkstoffe der Elektrotechnik, Ruhr-Universität Bochum
The local thermoelastic expansion of a modulated heated sample
has been used to study on submicrometer scale local heat-
sources of electronic devices. The temperature induced vertical
expansion and the topographic information of the samples have
been measured simultaneously using an atomic force microscope
(AFM). The samples were an 4 *m wide conducting line and an
in-plane-gate-transistor (IPG), oscillatory heating of the
samples has been achieved by applying a modulated drain-source-
voltage. The expansion signal has been measured at the frequency
of the thermal modulation. The vertical thermoelastic
displacement was calibrated by means of the piezoelectric
reference sample under beneath the semiconductor device. The
achieved lateral resolution of our scanning thermoelastic
microscope (STEM) is below 50 nm. By supplementary experiments
other than thermoelastic contributions were investigated but no
significant influence was observed.
(Work performed in the frame of GRK 384)