- This event has passed.
Quantum Information Seminar – Colorado School of Mines
December 3 @ 10:00 am - 11:00 am
Quantum Information Seminar presented by:
Nicholas Materise – Physicist, Sandia National Labs
Zoom: https://tinyurl.com/msun8t2p
+++++
About Nick Marterise
I am a staff scientist at Lawrence Livermore National Laboratory in the Quantum Coherent Device Physics Group (quantum.llnl.gov). I completed my PhD in Applied Physics from Colorado School of Mines in 2023, advised by Eliot Kapit. My thesis focused on the design of tunable couplers for 2D and 3D superconducting circuits and materials loss measurements for superconducting quantum computing.
In my free time, I enjoy rock climbing, backpacking, cooking, volunteering in STEM and outdoor communities, and playing various musical instruments.
A recent copy of my CV
A copy of my thesis
Publications
- S. G. Jones,* N. Materise,* K. W. Leung,* B. D. Isakov, X. Chen, J. Zheng, A. Gyenis, B. Jaeck, and C. R. H. McRae “Grain size in low loss superconducting Ta thin films on c-axis sapphire,” 2023, J. Appl. Phys. 134, 14402 (2023) local copy
- N. Materise, M. Dartiailh, J. Shabani, and E. Kapit “Tunable capacitor for superconducting qubits using an InAs/InGaAs heterostructure,” 2023, Quantum Sci. Technol. 8 045014 (2023) local copy
- N. Materise. “An Introduction to Superconducting Qubits and Circuit Quantum Electrodynamics.” Springer Proceedings in Physics, vol 211. Springer, Cham., 2018 local copy
- E.T. Holland, Y.J. Rosen, N. Materise, N. Woollett, T. Voisin, Y.M. Wang, S.G. Torres, J. Mireles, G. Carosi, and J. L DuBois. ” High-kinetic inductance additive manufactured superconducting microwave cavity.” Applied Physics Letters 111, 202602 (2018) local copy
- Y. Ukidave, F.N. Paravecino, L. Yu, C. Karla, Z. Chen, A. Momeni, N. Materise, B. Daley, and D. Kaeli. “NUPAR: A Benchmark Suite for Modern Heterogeneous Architectures.”International Conference on Performance Engineering, 2015 local copy
Patents
- E. Kapit, S. Chakram, N. Materise and J. Koch, “Galvanic Coupling Element for 3D Superconducting Cavities.” US Patent Application No. Not Assigned. February 2023
- E. Kapit, N. Materise, J. Shabani. “Tunable capacitor for superconducting qubits.” US Patent Application No. 17/564,789. December 2020, https://patents.google.com/patent/US20220207403A1/en
This website is powered by the academicpages template and hosted on GitHub pages.