Tobias Osborne
I am a professor of theoretical physics specialising in the discovery of quantum algorithms for the quantum information era.
I have a proven track record in quantum algorithm design as co-discoverer of the Quantum Metropolis Sampling algorithm. I also have extensive experience in variational methods and their experimental implementation as co-author of one of the first analog variational quantum simulation algorithms. I am also an early innovator in Quantum Machine Learning.
I am passionate about open science and science education.
Contact me via Email for all inquiries and opportunities.
Symmetries and quantum mechanics: class functions and the number of irreps
Symmetries and quantum mechanics: the regular representation
Symmetries and quantum mechanics: orthogonality relations for characters
Symmetries and quantum mechanics: consequences of Schur's lemma
Symmetries and quantum mechanics: Irreducible representations, characters, Schur's lemma
Symmetries and quantum mechanics: Linear representations
Symmetries and quantum mechanics: basics, Wigner's theorem, linear representations of groups
Quantum computing basics: What is quantum advantage?
Quantum mechanics essentials: Everything you need for quantum computation
Theoretische Physik C: Kanonisches Ensemble
Theoretische Physik C: Entropie
Theoretische Physik C: das mikrokanonische Ensemble
Theoretische Physik C: Statistische Physik
Theoretische Physik C: Identische Teilchen
Theoretische Physik C: Spin und zusammengesetzte Systeme
Theoretische Physik C: Zentralpotential und Wasserstoffatom
Theoretische Physik C: Drehimpuls
Theoretische Physik C: Endlich hoher Potentialtopf & Drehimpuls
Theoretische Physik C: Endlich hoher Potentialtopf
Theoretische Physik C: Harmonischer Oszillator 2
Theoretische Physik C: Harmonischer Oszillator
Theoretische Physik C: Teilchen im Kasten
Theoretische Physik C: Zerfließen des Wellenpakets
Theoretische Physik C: Unschärfe
Theoretische Physik C: Die Schrödingergleichung (Lösung)
Theoretische Physik C: Die Schrödingergleichung
Theoretische Physik C: Quantisierung
Theoretische Physik C: Die Postulate der QM
Theoretische Physik C: Diagonalisierung, Eigenwert, Eigenvektor, Funktionalkalkül
Theoretische Physik C: Operatoren, Positions-Basis, Spur