We present a fully automated on-wafer RF measurement platform that combines nano-robotics with AI-assisted computer vision to achieve sub-micron probe alignment and high repeatability. The system leve...
Vector Network Analyzers (VNAs) have evolved significantly over time. Today, it is possible to perform a single sweep from as low as 100kHz to 250GHz with the latest NA5307A Frequency Extender by Keys...
For accurate probing up to sub-THz frequencies, on-wafer calibration is critical. However, most Impedance Standard Substrates (ISSs) used in calibration are made of alumina, even though most MMICs are...
The rapid growth of mobile data traffic is driven by the proliferation of connected devices and new consumption modes like 4K streaming. Silicon technologies, with low cost and high performance, enabl...
We introduce the fundamentals of quantum theory as applied to lumped element circuits and simple microwave systems assuming no prior knowledge in quantum mechanics. We will consider the Lagrangian and...
IQM Radiance represents a major step forward in superconducting quantum computing, offering scalable platforms. This workshop will present the system architecture and highlight advances in microwave e...
Reliable high-fidelity qubit readout is essential for scalable quantum processors, with Josephson junction dynamics playing a decisive role in superconducting qubit architectures. This talk explores m...
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...