Student Seminar
Name: Mr. Sanjoy Patra
Title: Molecular qubits for quantum information science
Date & Time: Thursday, 13th February 2025 at 4.00 p.m.
Venue: Rajarshi Bhattacharya Memorial Lecture Hall, Chemical Sciences Building
Abstract:
Fast processing in quantum computation requires well-initialized qubits with long coherence times and controllable readout. In this regard, molecular qubits [1] offer some interesting features related to tunability and control over the state space, making them an emerging new frontier in the broad field of quantum information science. In this talk, I will discuss some limitations of nuclear and electronic spins as qubits using DiVincenzo’s criteria. I will then contrast diamond-based nitrogen vacancy (NV) centers [2] against molecular analogues. I will conclude with a recent study [3] of molecular qubits based on organic radicals that efficiently generate optically excited spin polarization with spin manipulation and optical readout similar to NV centers.
References:
-
Wasielewski, M.R., Forbes, M.D.E., Frank, N.L. et al. Exploiting chemistry and molecular systems for quantum information science. Nat. Rev. Chem. 4, 490–504 (2020).
-
Wood, B.D., Stimpson, G.A., March, J.E., Lekhai, Y.N.D., Stephen, C.J., Green, B.L., Frangeskou, A.C., Ginés, L., Mandal, S., Williams, O.A. and Morley, G.W., Long Spin Coherence Times of Nitrogen Vacancy Centers in Milled Nanodiamonds, Phy. Rev. B 2022, 105, 205401.
-
Gorgon, S., Lv, K., Grüne, J. et al. Reversible spin-optical interface in luminescent organic radicals. Nature 620, 538–544 (2023).