Litcius/Paper detail

Towards a unified picture of polarization transfer — pulsed DNP and chemically equivalent PHIP

Martin C. Korzeczek, Laurynas Dagys, Christoph Müller, Benedikt Tratzmiller, Alon Salhov, Tim R. Eichhorn, Jochen Scheuer, Stephan Knecht, Martin B. Plenio, Ilai Schwartz

2024Journal of Magnetic Resonance10 citationsDOIOpen Access PDF

Abstract

Nuclear spin hyperpolarization techniques, such as dynamic nuclear polarization (DNP) and parahydrogen-induced polarization (PHIP), have revolutionized nuclear magnetic resonance and magnetic resonance imaging. In these methods, a readily available source of high spin order, either electron spins in DNP or singlet states in hydrogen for PHIP, is brought into close proximity with nuclear spin targets, enabling efficient transfer of spin order under external quantum control. Despite vast disparities in energy scales and interaction mechanisms between electron spins in DNP and nuclear singlet states in PHIP, a pseudo-spin formalism allows us to establish an intriguing equivalence. As a result, the important low-field polarization transfer regime of PHIP can be mapped onto an analogous system equivalent to pulsed-DNP. This establishes a correspondence between key polarization transfer sequences in PHIP and DNP, facilitating the transfer of sequence development concepts. This promises fresh insights and significant cross-pollination between DNP and PHIP polarization sequence developers.

Topics & Concepts

Hyperpolarization (physics)SpinsPolarization (electrochemistry)Singlet stateChemistrySpin isomers of hydrogenSpin polarizationAtomic physicsNuclear magnetic resonanceChemical physicsElectronMolecular physicsPhysicsNuclear magnetic resonance spectroscopyHydrogenCondensed matter physicsQuantum mechanicsPhysical chemistryStereochemistryExcited stateOrganic chemistryAdvanced NMR Techniques and ApplicationsAtomic and Subatomic Physics ResearchSolid-state spectroscopy and crystallography