Quantum Information and Integrated Nanosystems
In the area of quantum information science, we are developing superconducting and trapped-ion quantum bits and are working to scale up these bits to a size large enough to achieve quantum computing. We're also studying how to harness quantum mechanics to improve sensing, and so far, have produced a diamond-based magnetic-field sensor 1,000 times more energy efficient than previous magnetometers. Our group continues to pioneer semiconductor fabrication techniques, classical superconducting circuits, and photonic integrated circuits for applications in energy-starved sensors, optical communications and laser radar transceivers, and more. Recently, our focus has been on developing superconducting single-flux-quantum integrated circuits to address future high-performance computing needs. To this end, we have developed a novel CMOS fabrication process that is on track to enable the most advanced superconducting circuits ever constructed.
Featured Projects
quantum
Compact Optical Trapped-Ion Array Clock
Optical atomic clocks are the most accurate in the world, but they are very large, sensitive instruments. We are transforming the complex components of these clocks into a compact, portable platform.
integrated systems
Superconducting Discrete Integrated Circuit Electronics
A technology that allows system developers to combine modules produced by trusted foundries and commercial manufacturers may deliver yield enhancements and power and performance benefits to mission-critical systems.
quantum systems and science
Diamond Magnetometer
Engineered diamonds show promising capability for use in quantum sensing of magnetic fields.
microelectronics
Superconducting Electronics
The world's most advanced single-flux-quantum (SFQ) integrated circuit process has been developed here at Lincoln Laboratory.
Latest News
In the Media
Sep 25
Mass.gov
Laboratory Stories
I always describe what I do as a game of 3D Tetris, but all of the tetrominoes have electrical characteristics and the win conditions invariably change a few times during play.
Meghan Schuldt
Photomask Designer
Advanced Technology
Quantum Information and Integrated Nanosystems
Advancing Our Research
Featured Publications
Operation of an optical atomic clock with a Brillouin laser subsystem
Dec 9
Nature, Vol. 588, No. 7837, 2020, pp. 244-9.
Analog coupled oscillator based weighted Ising machine
Oct 15
Sci. Rep., Vol. 9, No. 1, 15 October 2019, 14786.
Suppressing relaxation in superconducting qubits by quasiparticle pumping
Dec 23
Sci., Vol. 354, No. 6319, 23 December 2016, pp. 1573-77.
Our Staff
View the biographies of members of the Quantum Information and Integrated Nanosystems Group.
