Add to ORKGOptically pumped color centers in semiconductor powders can potentially induce high levels of nuclear spin polarization in surrounding solids or fluids at or near ambient conditions, but complications stemming from the random orientation of the particles and the presence of unpolarized paramagnetic defects hinder the flow of polarization beyond the defect's host material. Here, we theoretically study the spin dynamics of interacting nitrogen-vacancy (NV) and substitutional nitrogen (P1) centers in diamond to show that outside protons spin-polarize efficiently upon a magnetic field sweep across the NV-P1 level anticrossing. The process can be interpreted in terms of an NV-P1 spin ratchet, whose handedness, and hence the sign of the resulting...
Optical spin pumping of color centers in diamond is presently attracting broad interest as a platfor...
The emergence of a new class of optically polarizable electronic spins in diamond, nitrogen vacancy ...
Nuclear magnetic resonance techniques are widely used in the natural sciences but they lack sensitiv...
Optically pumped color centers in semiconductor powders can potentially induce high levels of nuclea...
A broad effort is underway to improve the sensitivity of NMR through the use of dynamic nuclear pola...
The small thermal polarization of nuclear spins currently limits the capabilities of nuclear spin ba...
Color-center-hosting semiconductors are emerging as promising source materials for low-field dynamic...
Dynamic nuclear polarization, which transfers the spin polarization of electrons to nuclei, is routi...
Dynamic nuclear spin polarization (DNP) mediated by paramagnetic point defects in semiconductors is ...
We employ the electronic spin of a single nitrogen-vacancy (NV) defect in diamond to detect and cont...
Optical pumping of spin polarization can produce almost complete spin order but its application is r...
We use field-cycling-assisted dynamic nuclear polarization and continuous radio-frequency (RF) drivi...
Nuclear spins are harnessed in many important technologies, including the well established fields of...
Generation of pure spin states is an important step towards coherent control of single spin systems....
Dynamic nuclear polarization via contact with electronic spins has emerged as an attractive route to...
Optical spin pumping of color centers in diamond is presently attracting broad interest as a platfor...
The emergence of a new class of optically polarizable electronic spins in diamond, nitrogen vacancy ...
Nuclear magnetic resonance techniques are widely used in the natural sciences but they lack sensitiv...
Optically pumped color centers in semiconductor powders can potentially induce high levels of nuclea...
A broad effort is underway to improve the sensitivity of NMR through the use of dynamic nuclear pola...
The small thermal polarization of nuclear spins currently limits the capabilities of nuclear spin ba...
Color-center-hosting semiconductors are emerging as promising source materials for low-field dynamic...
Dynamic nuclear polarization, which transfers the spin polarization of electrons to nuclei, is routi...
Dynamic nuclear spin polarization (DNP) mediated by paramagnetic point defects in semiconductors is ...
We employ the electronic spin of a single nitrogen-vacancy (NV) defect in diamond to detect and cont...
Optical pumping of spin polarization can produce almost complete spin order but its application is r...
We use field-cycling-assisted dynamic nuclear polarization and continuous radio-frequency (RF) drivi...
Nuclear spins are harnessed in many important technologies, including the well established fields of...
Generation of pure spin states is an important step towards coherent control of single spin systems....
Dynamic nuclear polarization via contact with electronic spins has emerged as an attractive route to...
Optical spin pumping of color centers in diamond is presently attracting broad interest as a platfor...
The emergence of a new class of optically polarizable electronic spins in diamond, nitrogen vacancy ...
Nuclear magnetic resonance techniques are widely used in the natural sciences but they lack sensitiv...