Litcius/Paper detail

Probing quantum mechanics with nanoparticle matter-wave interferometry

Sebastian Pedalino, Bruno E. Ramírez-Galindo, Richard Ferstl, Klaus Hornberger, Markus Arndt, Stefan Gerlich

2026Nature11 citationsDOIOpen Access PDF

Abstract

Abstract The quantum superposition principle is a fundamental concept of physics 1 and the basis of numerous quantum technologies 2,3 . Yet, it is still often regarded counterintuitive because we do not observe its key features on the macroscopic scales of our daily lives. It is, therefore, interesting to ask how quantum properties persist or change as we increase the size and complexity of objects 4 . A model test for this question can be realized by matter-wave interferometry, in which the motion of individual massive particles becomes delocalized and needs to be described by a wave function that spans regions far larger than the particle itself 5 . Over the years, this has been explored with a series of objects of increasing mass and complexity 6–9 and a growing community aims at pushing this to ever larger limits. Here we present an experimental platform that extends matter-wave interference to large metal clusters, a qualitatively new material class for quantum experiments. We specifically demonstrate quantum interference of sodium nanoparticles, which can each contain more than 7,000 atoms at masses greater than 170,000 Da. They propagate in a Schrödinger cat state with a macroscopicity 10 of μ = 15.5, surpassing previous experiments 5,9,11 by an order of magnitude.

Topics & Concepts

Superposition principlePhysicsQuantumInterference (communication)Quantum superpositionDelocalized electronInterferometryQuantum mechanicsWave functionWave–particle dualityClassical mechanicsFunction (biology)Quantum stateParticle (ecology)Open quantum systemStatistical physicsQuantum processCounterintuitiveQuantum dynamicsEnvelope (radar)Identical particlesMesoscopic physicsQuantum nonlocalityMotion (physics)Quantum dissipationQuantum technologyBound stateObservableQuantum imagingUncertainty principleCharacterization (materials science)Macroscopic quantum phenomenaQuantum opticsHidden variable theorySeries (stratigraphy)Quantum fluctuationTheoretical physicsQuantum dotParticle in a boxQuantum interferenceQuantum Mechanics and ApplicationsCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systems