Litcius/Paper detail

Matter-wave interference of a native polypeptide

A. Shayeghi, P. Rieser, G. Richter, U. Sezer, J. H. Rodewald, P. Geyer, T. J. Martinez, M. Arndt

2020Nature Communications55 citationsDOIOpen Access PDF

Abstract

The de Broglie wave nature of matter is a paradigmatic example of quantum physics and it has been exploited in precision measurements of forces and fundamental constants. However, matter-wave interferometry has remained an outstanding challenge for natural polypeptides, building blocks of life, which are fragile and difficult to handle. Here, we demonstrate the wave nature of gramicidin, a natural antibiotic composed of 15 amino acids. Its center of mass is delocalized over more than 20 times the molecular size in our time-domain Talbot-Lau interferometer. We compare the observed interference fringes with a model that includes both a rigorous treatment of the peptide's quantum wave nature as well as a quantum chemical assessment of its optical properties to distinguish our result from classical predictions. The realization of quantum optics with this prototypical biomolecule paves the way for quantum-assisted measurements on a large class of biologically relevant molecules.

Topics & Concepts

InterferometryMatter waveInterference (communication)PhysicsDelocalized electronQuantumRealization (probability)Quantum opticsQuantum mechanicsQuantum interferenceQuantum sensorQuantum imagingPhotonicsQuantum technologyBiomoleculeQuantum measurementQuantum dynamicsOpen quantum systemOptical physicsNatural (archaeology)AnnihilationNanotechnologyCenter of mass (relativistic)Molecular biophysicsPhotoreceptor and optogenetics researchQuantum Mechanics and ApplicationsMechanical and Optical Resonators