What is a pure quantum state and a mixed quantum state?

In summary, the distinction between 'pure' and 'mixed' quantum states applies to ensembles of quantum systems, not individual systems. A pure state is an operator of the form |u><u|, while a mixed state is a convex sum of pure states. This difference can be seen mathematically through the density matrix, with a pure state having a trace of 1 and a mixed state having a trace less than 1.
  • #1
rsaad
77
0
hi
what is a pure quantum state and a mixed quantum state? I looked up the internet but I did not quite understand. For pure quantum state I have read that they can't be written down as a mixture of other states? are entangled states pure states?
 
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  • #2
The distinction between 'pure' and 'mixed' applies to ensembles of quantum systems, not the possible states of individual quantum systems.

Consider the following examples. You have N spin 1/2 systems:

1. All of your spin systems are identically prepared in a S_z= +1/2 eigenstate. This is a pure ensemble.

2. All of your spins are identically prepared in the same linear combination of + and - Sz eigenstates. This is also a pure ensemble.

3. 25% percent of your spin systems are prepared like in 1 above. 75% are prepared in the state described in 2. This is a mixed ensemble.

Mathematically the difference is easily seen in terms of the density matrix [itex]\hat{\rho}[/itex] of the ensemble if you are familiar with that idea. For a pure ensemble, the trace of the square of the density operator is a maximum at one: [itex]Tr(\hat{\rho}^2)=1[/itex]. For any mixed ensemble the trace of [itex]\hat{\rho}^2[/itex] is less than 1. Also, for a pure state, the density operator is indempotent, i.e. [itex]\hat{\rho}^2=\hat{\rho}[/itex] So, if you are able to write down the density matrix of the system, you have an easy way of determining whether a state is pure or mixed.
 
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  • #3
The "ensemble" can also consist of the systems that participate in the experiment when you run it multiple times. If you use a preparation procedure that puts the spin of a silver atom in the pure state ##|+\rangle## 1/3 of the time and in the pure state ##|-\rangle## 2/3 of the time, the spin of a single silver atom that's been subjected to that procedure is in a mixed state.
 
  • #4
A state in general is defined as a positive operator of unit trace.

By definition a pure state is defined as an operator of the form |u><u|. It can be shown that any state can be written as a convex sum of pure states - but not uniquely. Non pure states are called mixed.

Check out;
http://en.wikipedia.org/wiki/Quantum_state#Mixed_states

Thanks
Bill
 
  • #5
Thank you all! I understand it now.
 

Related to What is a pure quantum state and a mixed quantum state?

1. What is the difference between a pure quantum state and a mixed quantum state?

A pure quantum state is a state of a quantum system that can be fully described by a single wavefunction. It is a state of perfect knowledge, meaning that the system is in a definite state with no uncertainty. On the other hand, a mixed quantum state is a state that cannot be described by a single wavefunction and is instead described by a statistical mixture of several pure states. This means that there is some degree of uncertainty or lack of knowledge about the system.

2. How are pure quantum states and mixed quantum states represented mathematically?

Pure quantum states are represented by a single wavefunction, which is a complex-valued function that encodes all the information about the state of the system. This wavefunction can be used to calculate the probability of measuring a certain outcome when the system is observed. Mixed quantum states, on the other hand, are represented by density matrices, which are matrices that describe the probabilities of the system being in each of its pure states.

3. What is the physical significance of pure quantum states and mixed quantum states?

Pure quantum states represent the idealized, perfectly known states of a quantum system. They are used to describe simple systems that are not affected by external disturbances. Mixed quantum states, on the other hand, are used to describe more complex systems that are subject to external influences or have some degree of uncertainty. They are also used to describe the behavior of systems in thermodynamic equilibrium.

4. Can a pure quantum state evolve into a mixed quantum state?

No, a pure quantum state cannot evolve into a mixed quantum state. This is because a pure state is a state of perfect knowledge, meaning that it is fully determined and cannot change unless acted upon by an external influence. Mixed quantum states, on the other hand, can evolve into other mixed states or into pure states through interactions with other systems.

5. How are pure quantum states and mixed quantum states related to the concept of superposition?

Superposition is the principle that states that a quantum system can exist in multiple states simultaneously. Pure quantum states can be in a state of superposition, where they exist in a combination of different pure states. Mixed quantum states, on the other hand, cannot be in a state of superposition because they are already a statistical mixture of multiple pure states.

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