o:62538 Testing Foundations of Quantum Mechanics at Different Energy Scales. Teil 4B: Catalina Curceanu (2) en Workshop in Honour of Reinhold A. Bertlmann Mitschnitt einer Veranstaltung der Fakultät für Physik der Universität Wien am Samstag, dem 26. Juni 2010 im Seminar-Hotel Schneeberghof in Puchberg am Schneeberg Teil 4B: Catalina Curceanu: Stepping into Bertlmann's Socks: Some Experimental Tests on Quantum Mechanics (zweiter Teil) Moderation: Beatrix Hiesmayr The Pauli Exclusion Principle (PEP), reflecting the spin-statistics connection, represents a fundamental principle of the modern physics. Even if today there are no compelling reasons to doubt its validity, it still spurs a lively debate on its possible limits, as testified by the abundant contributions found in the literature and in topical conferences. This talk presents a method of searching for possible small violations of PEP for electrons, through the search for "anomalous" X-ray transitions in copper atoms, produced by "fresh" electrons (brought inside the copper bar by circulating current) which can have the probability to do the Pauli-forbidden transition to the 1 s level already occupied by two electrons. INHALT ====== Kapitel Titel Position --------------------------------------------------------------------- 1. Vorspann 00:00:00 2. Questions from the audience 00:00:19 3. The measurement problem 00:13:34 4. Bell's theorem and the nature of reality 00:22:00 5. Collapse models 00:25:57 6. Lower and upper bounds 00:34:14 7. A dedicated experiment for testing collapse models 00:47:15 Paulisches Ausschließungsprinzip, Spin-Statistik-Theorem no 2010-11-05T12:52:47.952Z 44 yes 10868 Österreichische Zentralbibliothek für Physik institution 2010-06-26 47 Information Assistant - Verein für Informationsmanagement institution 2010-06-26 video/mpeg 3814903808 http://phaidra.univie.ac.at/o:62538 MPEG2 kompatibler Mediaplayer PT53M57S de no yes 1 (C) Information Assistant - Verein für Informationsmanagement 70 1 347 428 467 Paulisches Ausschließungsprinzip, Spin-Statistik-Theorem A0 A150