We propose uniquely dynamically-modulated dissipative cooling scheme in strong optomechanical coupling, which significantly enhances the cooling process. This overcomes quantum backaction and instantaneous phonon occupations below the steady-state cooling limit can be achieved. ? OSA 2013.EI
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
A pulsed cooling scheme for optomechanical systems is presented that is able to cool at a much faste...
Standard optomechanical cooling methods ideally require weak coupling and cavity damping rates which...
Cooling of mesoscopic mechanical resonators represents a primary concern in cavity optomechanics. In...
Laser cooling of mesoscopic mechanical resonators is of great interest for both fundamental studies ...
Ground-state cooling ofmesoscopicmechanical resonators is a fundamental requirement for testing of q...
We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure...
Preparing mechanical systems in their lowest possible entropy state, the quantum ground state, start...
Preparing mechanical systems in their lowest possible entropy state, the quantum ground state, start...
Optomechanical devices have been cooled to ground-state and genuine quantum features, as well as lon...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
| openaire: EC/H2020/732894/EU//HOTWe study the energy-level evolution and ground-state cooling of m...
| openaire: EC/H2020/732894/EU//HOTWe study the energy-level evolution and ground-state cooling of m...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
A pulsed cooling scheme for optomechanical systems is presented that is able to cool at a much faste...
Standard optomechanical cooling methods ideally require weak coupling and cavity damping rates which...
Cooling of mesoscopic mechanical resonators represents a primary concern in cavity optomechanics. In...
Laser cooling of mesoscopic mechanical resonators is of great interest for both fundamental studies ...
Ground-state cooling ofmesoscopicmechanical resonators is a fundamental requirement for testing of q...
We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure...
Preparing mechanical systems in their lowest possible entropy state, the quantum ground state, start...
Preparing mechanical systems in their lowest possible entropy state, the quantum ground state, start...
Optomechanical devices have been cooled to ground-state and genuine quantum features, as well as lon...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
| openaire: EC/H2020/732894/EU//HOTWe study the energy-level evolution and ground-state cooling of m...
| openaire: EC/H2020/732894/EU//HOTWe study the energy-level evolution and ground-state cooling of m...
In recent years the zoology of tamed quantum systems has witnessed the arrival of a new member. In t...
Precise control over massive mechanical objects is highly desirable for testing fundamental physics ...
A pulsed cooling scheme for optomechanical systems is presented that is able to cool at a much faste...
Standard optomechanical cooling methods ideally require weak coupling and cavity damping rates which...
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