quantum to classical transition in noisy classical environment jacopo trapani
DESCRIPTION
Gaussian noise stochastic model: Why? Not feasible full quantum description Classical stochastic fields give solution equivalent to the full quantum description in many situations We have direct access on the correlations of the environmentTRANSCRIPT
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Quantum to Classical Transition in Noisy Classical EnvironmentJACOPO TRAPANI
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Markovian Environment
Markovian Environment
Who am I?
System loses its quantum features because of decoherence
Non-Markovian Environment
Non Markovian Environment
I feel changed…
Preparation of Quantum state
The state changes but its quantum featuresare not definitely destroyed by decoherence
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Gaussian noise stochastic model: Why?Not feasible full quantum description
Classical stochastic fields give solution equivalent to the full quantum description in many situations
We have direct access on the correlations of the environment
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Gaussian noise: classical stochastic field (CSF) model
Interaction Hamiltonian
Gaussian Noise
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Stochastic FieldOrnstein-Uhlenbeck Kernel:
is the correlation time of the environment
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Quantum to Classical TransitionCoherent state |α > properties: Glauber Sudarshan P-distribution:
Thermal state P(α):
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Nonclassical Depth criterionQuantum state Classical state
The transition happens when P(α) turns positive!!
NCD criterion: we have to find the time tQ such that the P-distribution turns positive
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The P-distribution is the Fourier transformof the characteristic function of the state
Characteristic function evolution
It’s a property of the initial state!
genarates a positive P-distribution
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Nonclassical Depth criterion
The result found is independent on the initial state!
The result found is a property of the channel! State with same η have same decoherence time
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NCD: Resonant InteractionCorrelations
Persistence of nonclassicality
when
Markovian Regime!
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NCD: Off-Resonance InteractionDetuning
Revivals of nonclassicality!!
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Results1. CSF is a good model for non Markovian and Markovian interaction
2. Same decoherence time for different states with same amount of nonclassicality
3. Larger environment correlations means lorger decoherence time
4. Detuning implies revivals of nonclassicality