Matter-wave interference of particles selected from a molecular library with masses exceeding 10 000 amu

Author(s)
Sandra Eibenberger, Stefan Gerlich, Markus Arndt, Marcel Mayor, Jens Tüxen
Abstract

The quantum superposition principle, a key distinction between quantum physics and classical mechanics, is often perceived as a philosophical challenge to our concepts of reality, locality or space-time since it contrasts with our intuitive expectations with experimental observations on isolated quantum systems. While we are used to associating the notion of localization with massive bodies, quantum physics teaches us that every individual object is associated with a wave function that may eventually delocalize by far more than the body's own extension. Numerous experiments have verified this concept at the microscopic scale but intuition wavers when it comes to delocalization experiments with complex objects. While quantum science is the uncontested ideal of a physical theory, one may ask if the superposition principle can persist on all complexity scales. This motivates matter–wave diffraction and interference studies with large compounds in a three-grating interferometer configuration which also necessitates the preparation of high-mass nanoparticle beams at low velocities. Here we demonstrate how synthetic chemistry allows us to prepare libraries of fluorous porphyrins which can be tailored to exhibit high mass, good thermal stability and relatively low polarizability, which allows us to form slow thermal beams of these high-mass compounds, which can be detected using electron ionization mass spectrometry. We present successful superposition experiments with selected species from these molecular libraries in a quantum interferometer, which utilizes the diffraction of matter–waves at an optical phase grating. We observe high-contrast quantum fringe patterns of molecules exceeding a mass of 10 000 amu and having 810 atoms in a single particle.

Organisation(s)
Quantum Optics, Quantum Nanophysics and Quantum Information
External organisation(s)
Universität Basel, Karlsruher Institut für Technologie
Journal
Physical Chemistry Chemical Physics
Volume
15
Pages
14696-14700
No. of pages
5
ISSN
1463-9076
DOI
https://doi.org/10.1039/c3cp51500a
Publication date
2013
Peer reviewed
Yes
Austrian Fields of Science 2012
103036 Theoretical physics, 104017 Physical chemistry, 103025 Quantum mechanics
Keywords
Portal url
https://ucris.univie.ac.at/portal/en/publications/matterwave-interference-of-particles-selected-from-a-molecular-library-with-masses-exceeding-10-000-amu(9c4440a9-4f63-4d01-8c90-1c68992ef9a6).html