Quantum technology & computing
Building a quantum computing platform based on superconducting qubits and developing theory, algorithms and applications to explore and potentially overcome the limits of classical computation
Smart system integration
Future supercomputers will be based on technology classes that work with the tiniest of systems: Wearables and IoT devices
Functional electronic packaging
Improvements in compute performance, efficiency and miniaturization of digital devices
Binnig & Rohrer Nanotechnology Center
State-of-the-art research facility with cleanroom for micro/nanofabrication and noise-free labs
Atom/molecule manipulation
Low-temperature scanning tunneling microscopy and atomic force microscopy
III–V integration & devices
Monolithic III–V on silicon integration for applications spanning photonics, electronics and quantum devices
Neuromorphic devices & systems
Technologies for computing tomorrow’s artificial intelligence
Silicon photonics
A versatile photonic integration platform that leverages the infrastructure and fabrication processes known from standard CMOS technology
Thermal nanotechnology
Exploring thermal effects in nanoscale devices
Controlling semiconductor spins in quantum structures
Coupling spin qubits to microwave photons, controlling spins with an electric field
Nanomagnetism
Ferromagnetism at the limit of today’s technology and beyond
Control on the nanoscale
Nanofabrication, nanoscale devices, nano-objects in fluids
Energy efficiency and green technology
Energy savings will become the driving factor to adopting digital processes
Contact
Walter Riess
Department head, IBM Research scientist
Precision diagnostics
Technologies for healthcare and life sciences
Contact
Heike Riel
Department Head, IBM Fellow