Articles sponsored by established companies in the quantum technology industry.
Phase-locked loops are a common feature in analog signals within the physics and engineering fields. In this article, Zurich discusses the principles of phase-locked loops and their essential functions.
The Zurich Instruments SHFSG Signal Generator can be used to generate freely programmable pulse sequences, specifically designed for controlling superconducting and spin qubits
This article discusses how to prepare the superconducting of qubits using bell state from Zurich instruments.
This article explains how to use parallel cross-correlation measurements to reduce noise.
This article explains Superconducting Qubit Characterization.
This article discusses how to use superconducting qubits in quantum computing.
This article discusses the first commercial quantum analyzer.
A team of international researchers have designed microwave fields with time-dependent frequencies to improve the exchange couplings between the NV centres and nuclear spins.
Researchers from the United States has now developed a new real-world application, through an integrated silicon nanophotonic platform that utilises scalable coherent quantum feedback control networks.
The Pound-Drever Hall (PDH) method is a proven method for frequency stabilization of lasers such as diode lasers, to a reference optical cavity like Fabry-Perot cavity, in a ‘laser lock.’