Quantum Technologies for advancing MRI techniques.

ANALIA ZWICK

Seminario; Brown Bag Seminars, Trento University; 2022

Trento University

"Quantum Technologies for advancing MRI techniques"Quantum technologies such as quantum sensing are expected to revolutionize medical diagnosis. Quantum sensors will serve applications ranging from thermometry to diagnostic imaging with sub-micrometer resolutions [1-5]. The current spatial resolution of non-invasive in-vivo magnetic resonance imaging (MRI) is limited to a scale of millimeters in conventional imaging modalities. However, relevant tissue microstructure details and processes linked to disease occur at molecular and microstructural scales governed by the laws of quantum physics. We use nuclear spins of molecules intrinsic to biological systems (e.g. water protons) as quantum sensors of their environment and control them with magnetic resonance techniques to characterize quantitatively the underlying microstructure efficiently in time and precision [1,4-7]. We exploit fundamental concepts of quantum mechanics developed within the area of quantum information sciences, as quantum-control and -information theory tools to non-invasively quantify deep tissue-microstructure parameters such as cell-sizes or axon diameters that are about 100 times smaller than the actual imaging resolution [4-7].References:[1] A. Zwick, G. A. Álvarez, G. Kurizki, Phys. Rev. Applied 5, 014007 (2016).[2] V. Mukherjee, A. Zwick, A. Ghosh, X. Chen, Commun. Phys. 2, 162 (2019).[3] M. Kuffer, A. Zwick and G. A. Álvarez. PRX Quantum 3, 020321 (2022).[4] A. Zwick, D. Suter, G. Kurizki, G. A. Álvarez, Phys. Rev. Applied 14, 024088 (2020).[5] M. Capiglioni, A. Zwick, P. Jiménez, G. A. Álvarez, Proc. Intl. Soc. Mag. Reson. Med. 29, 2036 (2021).[6] M. Giménez, P. Jiménez, L. Pedraza, D. Betancourth, A. Zwick, and G. A. Álvarez, Proc. Intl. Soc. Mag. Reson. Med. 29, 3418 (2021).[7] M. Capiglioni, A. Zwick, P. Jiménez, G. A. Álvarez, Phys. Rev. Applied 15, 014045 (2021).