Add to ORKGWe report observation of long-lived spin-singlet states in a 13C-1H spin pair at zero magnetic field. In 13C-labeled formic acid, we observe spin-singlet lifetimes as long as 37 seconds, about a factor of three longer than the T1 lifetime of dipole polarization in the triplet state. We also observe that the lifetime of the singlet-triplet coherence, T2, is longer than T1. Moreover, we demonstrate that this singlet states formed by spins of a heteronucleus and a 1H nucleus, can exhibit longer lifetimes than the respective triplet states in systems consisting of more than two nuclear spins. Although long-lived homonuclear spin-singlet states have been extensively studied, this is the first experimental observation of analogous spin-singlets c...
Magnetic field dependence of long-lived spin states (LLSs) of the β-CH2 protons of aromatic amino ac...
Nuclear singlet states may display lifetimes that are an order of magnitude greater than conventiona...
Long-lived singlet states—zero-spin states made of two spin-1/2 particles—can be created by com-bini...
We report an observation of long-lived spin-singlet states in a C−H113 spin pair in a zero magneti...
Nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI) are supremely important techni...
Molecules that support <sup>13</sup>C singlet states with lifetimes of over 10 min in solution have ...
We have recently demonstrated the existence of exceptionally long-lived nuclear spin states in solut...
The field of long-lived states in NMR is reviewed. The relationship of long-lived-state phenomena to...
Abstract We measure the lifetime of long-lived nuclear spin singlet states as a function of the stre...
We measure the lifetime of long-lived nuclear spin singlet states as a function of the strength of t...
Nuclear magnetic resonance (NMR) experiments are time-limited by relaxation dynamics. Observing non-...
Long-lived states are nuclear spin configurations that, in suitable circumstances, decay very slowly...
Although monodeuterated methyl groups support proton long-lived states, hindering of the methyl rota...
We present approaches for an efficient excitation of singlet–triplet coherences in pairs of nearly-e...
It is possible to access long-lived nuclear singlet order in monodeuterated methyl groups, in the ca...
Magnetic field dependence of long-lived spin states (LLSs) of the β-CH2 protons of aromatic amino ac...
Nuclear singlet states may display lifetimes that are an order of magnitude greater than conventiona...
Long-lived singlet states—zero-spin states made of two spin-1/2 particles—can be created by com-bini...
We report an observation of long-lived spin-singlet states in a C−H113 spin pair in a zero magneti...
Nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI) are supremely important techni...
Molecules that support <sup>13</sup>C singlet states with lifetimes of over 10 min in solution have ...
We have recently demonstrated the existence of exceptionally long-lived nuclear spin states in solut...
The field of long-lived states in NMR is reviewed. The relationship of long-lived-state phenomena to...
Abstract We measure the lifetime of long-lived nuclear spin singlet states as a function of the stre...
We measure the lifetime of long-lived nuclear spin singlet states as a function of the strength of t...
Nuclear magnetic resonance (NMR) experiments are time-limited by relaxation dynamics. Observing non-...
Long-lived states are nuclear spin configurations that, in suitable circumstances, decay very slowly...
Although monodeuterated methyl groups support proton long-lived states, hindering of the methyl rota...
We present approaches for an efficient excitation of singlet–triplet coherences in pairs of nearly-e...
It is possible to access long-lived nuclear singlet order in monodeuterated methyl groups, in the ca...
Magnetic field dependence of long-lived spin states (LLSs) of the β-CH2 protons of aromatic amino ac...
Nuclear singlet states may display lifetimes that are an order of magnitude greater than conventiona...
Long-lived singlet states—zero-spin states made of two spin-1/2 particles—can be created by com-bini...