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topic:qm:density-matrix

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topic:qm:density-matrix [2023/02/15 18:46] samueltopic:qm:density-matrix [2023/02/15 18:56] (current) samuel
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 ====== Density Operator (matrix)====== ====== Density Operator (matrix)======
  
-While a system state in quantum mechanics can be described by its state vector $\ket{\psi}$, it can also be described by a so called density operator $\rho$.+While a system state in quantum mechanics can be described by its state vector $\ket{\psi}$,  
 +it can also be described by a so called density operator $\rho$.
  
 We define the density operator to be a positive operator $\rho$ with a trace equal to one ($\tr{\rho} = 1$). We define the density operator to be a positive operator $\rho$ with a trace equal to one ($\tr{\rho} = 1$).
  
-This density matrix describing the state of the system for pure states is defined as $$ \rho = \sum_i p_i{\ket{\psi_i}\bra{\psi_i}} $$.+===== Postulates in Density operator form ===== 
 +//This follows (verbatim) the Postulates as written in \cite{Nielsen.Chuang:2010}.// 
 + 
 +**1.** Associated to any isolated physical system is a complex vector space with inner product (that is, a Hilbert space) known as the state space of the system.  
 +The system is completely described by its density operator,  
 +which is a positive operator $\rho$ with trace one,  
 +acting on the state space of the system
 +If a quantum system is in the state $\rho_i$ with probability $p_i$, then the density operator for 
 +the system is $\sum_i{p_i \rho_i}$. 
 + 
 +**2.** The evolution of a closed quantum system is described by a unitary transformation.  
 +That is, the state $\rho$ of the system at time $t_1$ is related to the state 
 +$\rho'$ of the system at time $t_2$ by a unitary operator $U$ which depends only on the 
 +times $t_1$ and $t_2$, $$\rho' = U \rho U^\dagger$$. 
 + 
 +**3.** 
 + 
 +**4.** 
 + 
 +===== Properties ===== 
 +  * $\tr(\rho^2) <= 1$ 
 +  * $\rho$ is a pure state if and only if $\tr(\rho^2) == 1$. 
 + 
 +===== Linking state vector and density matrix ===== 
 + 
 +For multiple pure states it is defined as $$ \rho = \sum_i p_i{\ket{\psi_i}\bra{\psi_i}} $$.
topic/qm/density-matrix.1676486762.txt.gz · Last modified: by samuel

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