Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mechanics in a new high mass regime. Levitation allows extreme isolation from the environment, reducing the decoherence processes that are crucial for these sensitive experiments. A fundamental property of any oscillator is its linewidth and mechanical quality factor Q . Narrow linewidths in the microhertz regime and mechanical Q 's as high as 10 12 have been predicted for levitated systems. The insufficient long-term stability of these oscillators has prevented direct measurement in high vacuum. Here we report on the measurement of an ultranarrow linewidth levitated nano-oscillator, whose width of 81 ± 23 μ Hz is only limited b...
We describe the measurement of the secular motion of a levitated nanoparticle in a Paul trap with a ...
We show that the nanoresonator position can be squeezed significantly below the ground state level b...
We propose to optimally control the harmonic potential of a levitated nanoparticle to quantum deloca...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
A levitated nanomechanical oscillator under ultra-high vacuum (UHV) is highly isolated from its envi...
In this work I report on a hybrid trap platform for sensitive optomechanics experiments with applica...
Premi extraordinari doctorat 2013-2014Nanotechnology was named one of the key enabling technologies ...
We present experimental tests of dissipative extensions of spontaneous wave function collapse models...
Testing the limits of the applicability of quantum mechanics will deepen our understanding of the un...
We present experimental tests of dissipative extensions of spontaneous wave function collapse models...
12siThe continuous spontaneous localization (CSL) model predicts a tiny break of energy conservation...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We describe the construction and characterisation of a nano-oscillator formed by a Paul trap. The fr...
The use of levitated nanospheres represents a new paradigm for the optomechanical cooling of a small...
Tests of quantum mechanics on a macroscopic scale require extreme control over mechanical motion and...
We describe the measurement of the secular motion of a levitated nanoparticle in a Paul trap with a ...
We show that the nanoresonator position can be squeezed significantly below the ground state level b...
We propose to optimally control the harmonic potential of a levitated nanoparticle to quantum deloca...
Levitated nano-oscillators are promising platforms for testing fundamental physics and quantum mecha...
A levitated nanomechanical oscillator under ultra-high vacuum (UHV) is highly isolated from its envi...
In this work I report on a hybrid trap platform for sensitive optomechanics experiments with applica...
Premi extraordinari doctorat 2013-2014Nanotechnology was named one of the key enabling technologies ...
We present experimental tests of dissipative extensions of spontaneous wave function collapse models...
Testing the limits of the applicability of quantum mechanics will deepen our understanding of the un...
We present experimental tests of dissipative extensions of spontaneous wave function collapse models...
12siThe continuous spontaneous localization (CSL) model predicts a tiny break of energy conservation...
We consider a nanoparticle levitated in a Paul trap in ultrahigh cryogenic vacuum, and look for the ...
We describe the construction and characterisation of a nano-oscillator formed by a Paul trap. The fr...
The use of levitated nanospheres represents a new paradigm for the optomechanical cooling of a small...
Tests of quantum mechanics on a macroscopic scale require extreme control over mechanical motion and...
We describe the measurement of the secular motion of a levitated nanoparticle in a Paul trap with a ...
We show that the nanoresonator position can be squeezed significantly below the ground state level b...
We propose to optimally control the harmonic potential of a levitated nanoparticle to quantum deloca...