Can Coherence Be Restored in Quantum Systems?

  • Thread starter San K
  • Start date
  • Tags
    Coherence
In summary: This is yet another case where one can go wrong if one focuses on the double-slit experiment, simply because it is not a very "typical" system.
  • #1
San K
911
1
can coherence be restored (after de-coherence)?

let's look at single particle (interference) in a double slit experiment:

when we try to gain which way ...

the ordering of the phase angles between the components of a photon in a quantum superposition is disturbed/changed (?)

can we restore the coherence back?

is this question conceptually similar to - can entropy be restored?

on a separate note:

We can introduce a phase difference, between say the two paths of a photon, say via placing a half/fully silvered mirror on one of the paths. We can zero out the phase difference via another half/fully silvered mirror on the other path.

Thus we are able to introduce a phase difference and again reduce the phase difference back to zero as long as there is no measurement.
 
Last edited:
Physics news on Phys.org
  • #2
Restoring coherence is like reversing the thermodynamic arrow of time. In principle possible, in practice impossible.
 
  • #3
Demystifier said:
Restoring coherence is like reversing the thermodynamic arrow of time. In principle possible, in practice impossible.

ok...so let's for a moment go in principle...

so let's assume coherence can be resorted...so in principle...

could one have which-way and interference pattern (via restoration of coherence)?
 
  • #4
San K said:
ok...so let's for a moment go in principle...

so let's assume coherence can be resorted...so in principle...

could one have which-way and interference pattern (via restoration of coherence)?
Yes, as long as restoration of coherence is possible in principle, one could, in principle, have both which-way and interference pattern.
 
  • #5
thanks for the information, Demystifier
 
  • #6
Demystifier said:
Yes, as long as restoration of coherence is possible in principle, one could, in principle, have both which-way and interference pattern.
But restoring coherence would necesserily involve erasing all traces of the which-way information from the environment, would it not?
 
  • #7
Delta Kilo said:
But restoring coherence would necesserily involve erasing all traces of the which-way information from the environment, would it not?
It is certainly a possibility, but I don't think that it is strictly necessary. In your case re-coherence applies to the whole universe including the measuring apparatus, while in my case re-coherence applies only to the measured system and not the measuring apparatus. Your case is probably simpler mathematically, but in practice it is even more difficult to achieve than mine. If re-coherence was done by a quantum Maxwell demon, it would be easier for him to affect only the measured system and not the rest of the universe.
 
  • #8
Demystifier said:
It is certainly a possibility, but I don't think that it is strictly necessary. In your case re-coherence applies to the whole universe including the measuring apparatus, while in my case re-coherence applies only to the measured system and not the measuring apparatus. Your case is probably simpler mathematically, but in practice it is even more difficult to achieve than mine. If re-coherence was done by a quantum Maxwell demon, it would be easier for him to affect only the measured system and not the rest of the universe.

On a separate note:

Do we have two kinds of phase changes

1 phase change without measurement/detection
2 phase change(s) due to measurement/detection. Is this one called decoherence?

We know from experiments that 1 is easily possible. Also interference can be restored but which-way is lost and becomes unrecoverable.

The process and interactions for 2 (i.e. Decoherence) above is much more complex.
 
  • #9
San K said:
On a separate note:

Do we have two kinds of phase changes

1 phase change without measurement/detection
2 phase change(s) due to measurement/detection. Is this one called decoherence?

We know from experiments that 1 is easily possible. Also interference can be restored but which-way is lost and becomes unrecoverable.

The process and interactions for 2 (i.e. Decoherence) above is much more complex.
Fundamentally, there is no difference between the two. But from a practical point of view, decoherence is not merely a change of phase. Decoherence is a change of phase in a complex and uncontrollable way, so that you cannot longer predict what the phase will be. For a quantum Maxwell demon who can see the phase of the wave function of the whole universe, there is no such thing as decoherence.
 
  • #10
The answer to the questions is actually yes, at least to some extent. So called re-focusing pulse schemes are routinely used in e.g. NMR (and MRI, i.e. at most hospitals) to increase the effective T2 time of atomic systems. Similar schemes are also used for qubit operations.

This is yet another case where one can go wrong if one focuses on the double-slit experiment, simply because it is not a very "typical" system.
NMR or similar system (electron spin in a magnetic field) are much better "toy systems" if one want so learn about coherence.
 

1. Can coherence be restored in a system?

Yes, coherence can be restored in a system. Coherence refers to the state of harmony and organization within a system, and it is possible for this state to be disrupted or lost. However, through various means such as feedback mechanisms or external interventions, coherence can be restored.

2. What are some factors that can disrupt coherence?

There are many factors that can disrupt coherence in a system, including external disturbances, internal conflicts, lack of communication, and changes in environment or resources. These disruptions can lead to chaos and disorder within the system, causing a loss of coherence.

3. How does coherence affect the functioning of a system?

Coherence is essential for the proper functioning of a system. When a system is in a state of coherence, all its components are working together in harmony and synchrony. This allows the system to achieve its goals efficiently and effectively, while a lack of coherence can lead to inefficiency, errors, and even failure.

4. Can coherence be measured?

Yes, coherence can be measured using various methods and techniques. Some common measures of coherence include the degree of synchronization or coordination within a system, the level of organization and complexity, and the ability of the system to maintain stability and adapt to changes.

5. How can coherence be improved?

There are several ways to improve coherence in a system, such as implementing effective communication channels, fostering collaboration and teamwork, identifying and addressing sources of conflict, and establishing clear goals and objectives. It is also important to regularly monitor and assess the system's coherence and make necessary adjustments to maintain it.

Similar threads

I When is a system coherent or decoherent?
    • Quantum Physics
Replies
2
Views
664
I Entanglement vs. Coherence in SPDC
    • Quantum Physics
Replies
20
Views
3K
I How Big Is a Photon? - Exploring Interference Experiments
    • Quantum Physics
Replies
14
Views
1K
A Can anyone give me the details of creating a cat state in Circuit QED?
    • Quantum Physics
Replies
16
Views
1K
I "Spatial Width," "Coherence Length," and the Measurement Problem
    • Quantum Physics
Replies
2
Views
742
A Gravity Measured with Milligram masses
    • Quantum Physics
Replies
3
Views
300
I Double Slit Interference Question II
    • Quantum Physics
Replies
2
Views
942
I Hossenfelder: Delayed Choice Quantum Eraser, Debunked?
    • Quantum Physics
Replies
3
Views
1K
I The HOM Effect, Path Entanglement, and Generation
    • Quantum Physics
Replies
5
Views
1K
I Exploring CV Bell State Measurement and Entanglement Swapping
    • Quantum Physics
Replies
2
Views
812

Hot Threads

Recent Insights

Back
Top