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Implementing efficient selective quantum process tomography of superconducting quantum gates on IBM quantum experience

Akshay Gaikwad, Krishna Shende, Arvind Arvind, Kavita Dorai

2022Scientific Reports20 citationsDOIOpen Access PDF

Abstract

The experimental implementation of selective quantum process tomography (SQPT) involves computing individual elements of the process matrix with the help of a special set of states called quantum 2-design states. However, the number of experimental settings required to prepare input states from quantum 2-design states to selectively and precisely compute a desired element of the process matrix is still high, and hence constructing the corresponding unitary operations in the lab is a daunting task. In order to reduce the experimental complexity, we mathematically reformulated the standard SQPT problem, which we term the modified SQPT (MSQPT) method. We designed the generalized quantum circuit to prepare the required set of input states and formulated an efficient measurement strategy aimed at minimizing the experimental cost of SQPT. We experimentally demonstrated the MSQPT protocol on the IBM QX2 cloud quantum processor and selectively characterized various two- and three-qubit quantum gates.

Topics & Concepts

Quantum computerComputer scienceQuantum algorithmQuantum phase estimation algorithmQuantum circuitQuantum processQuantum tomographyQuantumQubitQuantum stateSet (abstract data type)Quantum error correctionProcess (computing)IBMComputer engineeringTheoretical computer scienceQuantum mechanicsPhysicsQuantum dynamicsOpticsOperating systemProgramming languageQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyAdvancements in Semiconductor Devices and Circuit Design
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