CMOS integrated circuits for the quantum information sciences

Over the past decade, significant progress in quantum technologies has been made and, hence, engineering of these systems become an important research area. Many researchers have interested studying ways which classical integrated circuits can be used to complement mechanical systems, enabling more compact, performant, and/or extensible than would otherwise feasible. In this article—written by a consortium early contributors field—we provide review some for information sciences. CMOS and BiCMOS nuclear magnetic resonance, nitrogen-vacancy-based magnetometry, trapped-ion-based computing, superconductor-based quantum-dot based computing are described. each case, basic technological requirements presented before describing proof-of-concept circuits. We conclude summarizing many open areas sciences designers.