Josephson Parametric Devices (JPDs), such as amplifiers and converters, emerged as essential building blocks and integral parts of modern superconducting quantum experiments operated in the GHz range ...
Superconducting qubits and resonators can be used to sensitively detect radiation and to search for dark matter. We design and fabricate devices optimized for different dark matter types, including ax...
Quantum algorithms can reduce the polynomial cost of the best-known classical methods to logarithmic scaling for many fundamental problems, including the Fourier transform and the solution of large ma...
In recent years, quantum- and atom-based electric and magnetic field sensors have attracted significant attention, prompting both universities and companies to launch dedicated research and developmen...
Recently, significant advances in Quantum Computing (QC) algorithms and hardware have provided a novel paradigm for solving difficult computational problems. In the workshop, we will discuss quantum-a...
This talk will present our work in reconfigurable beamformers and transceivers at 6–18GHz in GlobalFoundries 22FDSOI. Rather than a wideband response, we will show that reconfigurable circuits offer a...
In this talk, a series of reflectionless receivers with key blocks including absorptive IF amplifier, 3-port down converter, etc are discussed, which can support flat carrier aggregation operation wit...
RF-DACs are rapidly becoming the backbone of software defined radios. They are heavily deployed in industrial solutions such as RF-SOC FPGAs from AMD/Alterra and highly digital front-ends like the ADI...
The upper mid-band or FR3 (7–24GHz) has attracted considerable interest in NextG cellular systems as the bands offer a balance of coverage and capacity. This talk describes an initial 2×2 MIMO FR3 SDR...
Technology scaling and advances in ADC capability are continuously pushing the boundaries of Software-Defined Radios (SDR) further into the territory of traditional mixer-based architectures. While SD...