Editing Full Quantum state tomography with Linear Inversion
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* In addition to the mentioned errors, each experimental implementation can have its own unique errors. | * In addition to the mentioned errors, each experimental implementation can have its own unique errors. | ||
== | ==Protocol Description== | ||
'''Input''': copies of unknown quantum state | '''Input''': copies of unknown quantum state | ||
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'''Output''': Density matrix of the quantum state, <math>\rho</math> | '''Output''': Density matrix of the quantum state, <math>\rho</math> | ||
* Pick the measurement basis | * Pick the measurement basis $A$, where <math> | ||
A = \begin{bmatrix} | A = \begin{bmatrix} | ||
\vec{E_1} \\ \vec{E_2} \\ . \\. \\ \vec{E_{d^2}} | \vec{E_1} \\ \vec{E_2} \\ . \\. \\ \vec{E_{d^2}} | ||
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==Related Papers== | ==Related Papers== | ||
* J. B. Altepeter et al, Quantum State Tomography | * J. B. Altepeter et al, Quantum State Tomography | ||
* D. Leibfried et al Phys. Rev. Lett. 77, 4281 (1996) | * D. Leibfried et al Phys. Rev. Lett. 77, 4281 (1996) | ||
* J. Rehacek et al arXiv:quant-ph/0009093: Iterative algorithm for reconstruction of entangled states | * J. Rehacek et al arXiv:quant-ph/0009093: Iterative algorithm for reconstruction of entangled states |