Group 89—Quantum Information and Integrated Nanosystems Group
The Quantum Information and Integrated Nanosystems Group conducts quantum information science
research from a shared foundation of innovative control-signal design, outstanding fabrication tools, and
well-equipped measurement infrastructure. The group has a broad range of experimental and prototyping
activities. The group's quantum information science activities include the development of superconducting
and trapped-ion qubits and quantum sensing with nitrogen-vacancy (NV) centers in diamond. In addition,
the group has robust capabilities in classical superconducting circuits, complementary metal-oxide
semiconductor (CMOS) design and fabrication, and integrated photonics. These component technologies
are used in synergy with quantum information science demonstrations, as well as in standalone applications
that include beyond-CMOS circuit technologies, energy-starved sensors, compact optical communication
and laser radar transceivers, and microwave photonic signal processing.
MIT-LL Quantum Information and Integrated Nanosystems Group seeks highly motivated new graduates within the field of quantum information science. Join an active research and development effort focused on next generation techniques, applications, and demonstrations in quantum sensing.
Candidates must have experience in quantum information with a deep technical knowledge in physical measurements and instrumentation. Sub-specialties of interest include: • Ion / atom chip-traps • Nanofabricated photonic & RF systems • Diamond growth • Solid-state quantum systems • Cold/ ultracold atoms or molecules The successful candidate must be able to work well in academic teams as well as demonstrate strong written and oral communication skills.
Requirements include a Ph.D. in Physics or related field. Expertise in MATLAB/Mathematica, Solidworks, and HFSS is desired.