Jeremy M. Sage

Jeremy M. Sage

Member of the Technical Staff, Lincoln Laboratory
Principal Investigator, Research Laboratory of Electronics

77 Massachusetts Avenue
Room 36-413
Cambridge, MA 02139

Dr. Jeremy Sage is a Principal Investigator in the Research Laboratory of Electronics (RLE) at MIT and a Technical Staff Member at MIT Lincoln Laboratory.  He co-leads the trapped ion quantum information processing group at MIT-LL and has managed multiple trapped-ion quantum computing programs. Dr. Sage has expertise in high-fidelity, multi-species trapped-ion quantum control and has extensively studied noise in both trapped-ion and superconducting qubit systems.  His research is also focused on the development of integrated photonics and electronics for robust, many-ion control and measurement.

Dr. Sage received a B.S in Physics/Mathematics from Brown University and a Ph.D. in Physics from Yale University.  At Yale his research was focused on laser cooling and trapping of neutral atoms and molecules.


Quantum information processing; qubits; trapped ions; integrated photonics; AMO physics


  • A. Sedlacek, A. Greene, J. Stuart, R. McConnell, C.D. Bruzewicz, J.M. Sage, and J. Chiaverini. Distance scaling of electric-field noise in a surface-electrode ion trap. Physical Review A (Rapid) 97:020302®, 2018.
  • Sorace-Agaskar, S. Bramhavar, D. Kharas, W. Loh, P.W. Juodawlkis, J. Chiaverini, and J.M. Sage. Multi-layer integrated photonics from the ultraviolet to the infrared. Proceedings of SPIE 10510, Frontiers in Biological Detection: From Nanosensors to Systems 105100D, 2018.
  • McConnell, G.H. Low, T.J. Yoder, C.D. Bruzewicz, I.L. Chuang, J. Chiaverini, and J.M. Sage. Heisenberg scaling of imaging resolution by coherent enhancement. Physical Review A (Rapid) 96:051801®, 2017.
  • K. Mehta, C.D. Bruzewicz, R. McConnell, R.J. Ram, J.M. Sage, and J. Chiaverini. Integrated optical addressing of an ion qubit.  Nature Nanotechnology 11:1066, 2016.
  • J.M. Sage, A.J. Kerman, and J. Chiaverini. Loading of a surface-electrode ion trap from a remote, precooled source.  Physical Review A, 86:013417, 2012.
  • J.M. Sage, V. Bolkhovsky, W.D. Oliver, B. Turek, and P.B. Welander. Study of loss in superconducting coplanar waveguide resonators.  Journal of Applied Physics, 109:063915, 2011.



Toward practical quantum computers”



Concept for a quantum information processor based on individual trapped atomic ions”

Single-ion trapping from a cooled, accelerated cloud of neutral atoms”