At EPFL, the following three groups of equipment & infrastructure were acquired:
Group 1: Infrastructure equipment focused on quantum application for shared use by the EPFL quantum community of researchers:
Three pieces of equipment have been identified and approved for purchase by a review committee with representatives of trhe EPFL quantum community, as key for research in quantum science and technology:
- A parallel-plate reactor reactive ion etching (RIE) apparatus (lead: Prof. Banerjee).
- An atomic layer deposition system (ALD)(lead: Prof. Banerjee).
- A UHV single chamber evaporation system for superconducting circuits (lead: Prof. Scarlino).
Group 2: Dedicated laboratory equipment for advanced experimental research on various quantum technology platforms:
Via a competitive internal call for infrastructure equipment, launched on October 4 2023, following 12 infrastructural projects were selected to serve a series of scientific projects:
- Ultrafast all-optical control of quantized magnetic flux in superconducting rings – for quantum sensing and computation (DQML lab of Prof. Jotzu)
- Current-in-plane apparatus its operating cost for measuring tunnel junctions including Nb/Al-AlOx/Nb trilayer stacks (LPQM lab of Prof. Kippenberg)
- Cavity magnonics with Rare-Earth hyperfine states (LQM lab of Prof. Ronnow)
- Read-out and control of superconducting cavity electro electro-optics for Terahertz quantum applications – non magnetic breadboard (HYLAB lab of Prof. Benea-Chelmus)
- Supercontinuum laser (LANES lab of Prof. Kis)
- DC and RF electronics – Equipment for device and qubit operation in a dilution refrigerator (NANOLAB of Prof. Ionescu)
- High-Precision Assembly Platform for Integrating 1D Nanowires and 2D Layered Materials for Novel Quantum Devices (HQC lab of Prof. Scarlino)
- Dry etcher for superconducting thin films (HQC lab of Prof. Scarlino)
- Improved NV-based quantum sensing based on IR absorption in diamond nanophotonic cavities (GR-GA lab of Dr. Galland)
- Cryogen-free low vibration cryostat for temperature-dependent studies of bright single photon emitters (LASPE lab of Prof. Grandjean)
- High-precision wavelength-meter for cavity quantum electrodynamics experiments (LQG lab of Prof. Brantut)
- Quantum sensing – low temperature magic angle spinning NMR probe (LRM lab of Prof. Lyndon)
Group 3: access to quantum computing platforms (infrastructure as a service) by several quantum cloud providers, for shared use by the EPFL community of researchers in quantum algorithms and quantum computing; the choice includes the three major platforms, i.e., superconducting circuit, trapped-ion, and Rydberg-atom quantum computers.