Add to ORKGWe consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the conditions which allow for a stringent noninterferometric test of spontaneous collapse models. In particular we compare different possible techniques to detect the particle motion. Key conditions which need to be achieved are extremely low residual pressure and the ability to detect the particle at ultralow power. We compare three different detection approaches based, respectively, on an optical cavity, an optical tweezer, and an electrical readout, and for each one we assess advantages, drawbacks, and technical challenges
12siThe continuous spontaneous localization (CSL) model predicts a tiny break of energy conservation...
We describe the construction and characterisation of a nano-oscillator formed by a Paul trap. The fr...
A levitated nanomechanical oscillator under ultra-high vacuum (UHV) is highly isolated from its envi...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We propose a mechanism for testing the theory of collapse models such as continuous spontaneous loca...
Collapse models postulate the existence of intrinsic noise which modifies quantum mechanics and is r...
We describe the measurement of the secular motion of a levitated nanoparticle in a Paul trap with a ...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
Recently, nonthermal excess noise, compatible with the theoretical prediction provided by collapse m...
Testing the limits of the applicability of quantum mechanics will deepen our understanding of the un...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
In this work I report on a hybrid trap platform for sensitive optomechanics experiments with applica...
Despite the unquestionable empirical success of quantum theory, witnessed by the recent uprising of ...
Despite the unquestionable empirical success of quantum theory, witnessed by the recent uprising of ...
12siThe continuous spontaneous localization (CSL) model predicts a tiny break of energy conservation...
We describe the construction and characterisation of a nano-oscillator formed by a Paul trap. The fr...
A levitated nanomechanical oscillator under ultra-high vacuum (UHV) is highly isolated from its envi...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We propose a mechanism for testing the theory of collapse models such as continuous spontaneous loca...
Collapse models postulate the existence of intrinsic noise which modifies quantum mechanics and is r...
We describe the measurement of the secular motion of a levitated nanoparticle in a Paul trap with a ...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
Recently, nonthermal excess noise, compatible with the theoretical prediction provided by collapse m...
Testing the limits of the applicability of quantum mechanics will deepen our understanding of the un...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
In this work I report on a hybrid trap platform for sensitive optomechanics experiments with applica...
Despite the unquestionable empirical success of quantum theory, witnessed by the recent uprising of ...
Despite the unquestionable empirical success of quantum theory, witnessed by the recent uprising of ...
12siThe continuous spontaneous localization (CSL) model predicts a tiny break of energy conservation...
We describe the construction and characterisation of a nano-oscillator formed by a Paul trap. The fr...
A levitated nanomechanical oscillator under ultra-high vacuum (UHV) is highly isolated from its envi...