The design of a solid-state quantum processor is nowadays a hot research topic in microelec-tronics. Like the logic gates in a classical processor, quantum gates serve as the fundamental building blocks for quantum processors. Main goal of the present paper is to deduce the matrix of the main one- and two-qubits quantum gates from the Schrödinger equation. The mathemati-cal formalism is kept as comfortable as possible for electronics engineers. The paper does not cover topics as dissipations, state density, coherence, and state purity. In a similar manner, the paper also deals with the quantum nature of a quantum processor by leveraging on the concept of finite state machine, which is a background notion for any electronics engineer.
Quantum Gates for Electronics Engineers / Borgarino, Mattia; Badiali, Alessandro. - In: ELECTRONICS. - ISSN 2079-9292. - 12:22(2023), pp. 1-46. [10.3390/electronics12224664]
Quantum Gates for Electronics Engineers
Mattia Borgarino
;
2023
Abstract
The design of a solid-state quantum processor is nowadays a hot research topic in microelec-tronics. Like the logic gates in a classical processor, quantum gates serve as the fundamental building blocks for quantum processors. Main goal of the present paper is to deduce the matrix of the main one- and two-qubits quantum gates from the Schrödinger equation. The mathemati-cal formalism is kept as comfortable as possible for electronics engineers. The paper does not cover topics as dissipations, state density, coherence, and state purity. In a similar manner, the paper also deals with the quantum nature of a quantum processor by leveraging on the concept of finite state machine, which is a background notion for any electronics engineer.
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