Rényi entropy becomes von Neumann entropy

In summary, Rényi entropy is a measure of randomness in a system and is often used in information theory and statistical mechanics. It becomes von Neumann entropy when the system approaches equilibrium or is in a pure state. The relationship between the two is important for understanding quantum systems and has applications in fields such as quantum computing and thermodynamics.
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Lapidus
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In holographic entanglement entropy notes like here, they let alpha go to one in (2.41) and get (2.42). But (2.41) goes towards infinity, when doing that! Can someone explain how alpha --> 1 will make (2.41) into (2.42)? Thank you!

Renyi Neumann.PNG
 
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  • #2
You should keep in mind that ## Tr \rho=1 ##. So ## \displaystyle \lim_{\alpha \to 1} \log(Tr \rho^\alpha)=0##. So ## \displaystyle \lim_{\alpha \to 1}S_\alpha(\rho)=\frac 0 0 ## and is indeterminate. To calculate it, you need to use L'Hopital's rule and differentiate the numerator and denominator w.r.t. ## \alpha ## and then take the limit.
 
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Related to Rényi entropy becomes von Neumann entropy

What is Rényi entropy?

Rényi entropy is a measure of the randomness or uncertainty in a system. It is named after Hungarian mathematician Alfréd Rényi and is often used in information theory and statistical mechanics.

What is von Neumann entropy?

Von Neumann entropy, named after physicist John von Neumann, is a measure of the entropy of a quantum mechanical system. It is closely related to Rényi entropy and is commonly used in quantum information theory.

How does Rényi entropy become von Neumann entropy?

In the case of a classical system, Rényi entropy becomes von Neumann entropy when the system approaches equilibrium, meaning that the uncertainty in the system decreases and the system becomes more ordered. In the case of a quantum mechanical system, Rényi entropy becomes von Neumann entropy when the system is in a pure state, meaning that the system is in a state of maximum order and there is no uncertainty about its state.

Why is the relationship between Rényi entropy and von Neumann entropy important?

The relationship between Rényi entropy and von Neumann entropy is important because it allows us to understand the behavior of a quantum mechanical system as it approaches equilibrium. It also helps us to analyze the entanglement and information content of quantum systems, which has important implications for quantum information processing and communication.

Are there any applications of the concept of Rényi entropy becoming von Neumann entropy?

Yes, the concept of Rényi entropy becoming von Neumann entropy has applications in various fields, including quantum computing, quantum cryptography, and quantum thermodynamics. It also has implications for understanding the behavior of complex systems and the emergence of order from disorder.

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