Dominik Heib
Curriculum Vitae
dominik.heib@sbg.ac.at
+43 662 8044-5148
ccns.sbg.ac.at/people/heib
@ domhe
Education
BSc in Information Technology and Systems Management
Salzburg University of Applied Sciences
2016 - 2019
Doctorate in Natural Sciences (Dr.rer.nat.)
University of Salzburg, Centre for Cognitive Neuroscience, Austria
2011 - 2015
MSc in Psychology
University of Salzburg, Department of Psychology, Austria
2005 - 2010
High-School Diploma
Technisches Gymnasium Waiblingen, Germany
2001 - 2004
Languages
German
(Native speaker)
English
(Fluent)
Interests
Cognitive Neuroscience
Digital Signal Processing
Work Experience
Senior Scientist
20016 - Present
Method Unit EEG @Centre for Cognitive Neuroscience
University of Salzburg, Austria
Research Assistant
2009 - 2015
Department of Psychology
University of Salzburg, Austria
Awards
Scholarship for academic excellence („Technikstipendium“)
2018
Austrian Federal Economic Chamber
Best „Data-Blitz“-presentation Award
2015
Sleep, Cognition and Consciousness”, Kaprun, Austria
Best Abstract
2013
5th Dubrovnik Conference on Cognitive Science, Dubrovnik, Croatia
Publications (selected, H-index = 14)
My complete publication list can be seen on
ResearchGate
Slow oscillation-spindle coupling predicts enhanced memory
formation from childhood to adolescence.
2020
Hahn, M., Heib, D., Schabus, M., Hoedlmoser, K., & Helfrich, R.F.
eLife, 9, e53730
Rehearsal initiates systems memory consolidation, sleep makes
it last.
2019
Himmer, L., Schönauer, M., Heib, D.P.J., Schabus, M., & Gais, S.
Science Advances, 5(4), eaav1695.
Better than sham? A double-blind placebo-controlled neurofeedback
study in primary insomnia.
2018
Schabus, M., Griessenberger, H., Gnjezda, M.-T., Heib, D. P. J., Wislowska, M., & Hoedlmoser, K.
Brain, 140 (2), 1-12.
Oscillatory Theta Activity during Memory Formation and Its Impact on Overnight Consolidation: A Missing Link?
2015
Heib, D.P.J., Hoedlmoser, K., Anderer, P., Gruber, G., Zeitlhofer, J., Schabus, M.
Journal of Cognitive Neuroscience, 27 (8), 1648-1658.
Slow oscillation amplitudes and up-state lengths relate to memory improvement.
2013
Heib, D.P.J., Hoedlmoser, K., Anderer, P., Zeitlhofer, J., Gruber, G., Klimesch, W., & Schabus, M.
PLoS ONE, 8(12), e82049.