Device and method for rapid dynamic nuclear polarization

We claim: 1. A method for producing a hyperpolarized sample material for use in an NMR investigation, the method comprising the steps of: (a) providing a first cryogenic region; (b) providing a target material containing a first hyperpolarizable nuclear species, a second hyperpolarizable nuclear species and a nuclear spin polarizing agent in the first cryogenic region, wherein the first hyperpolarizable nuclear species has a higher magnetic moment (γ) than the second hyperpolarizable nuclear species; (c) supplying microwave energy to the first cryogenic region to excite electron spin transitions in the polarizing agent in the presence of a magnetic field (B 0 ); (d) causing the first hyperpolarizable nuclear species to interact with the electron spin system in the polarizing agent thereby generating hyperpolarization of at least the first nuclear species of the target material; (e) subjecting the target material to a lowered magnetic field, wherein the lowered magnetic field is such as to facilitate polarization transfer by means of nuclear thermal mixing between the first hyperpolarizable nuclear species and the second hyperpolarizable nuclear species, thereby to effect hyperpolarization of the second nuclear species; and (f) presenting the target material to a use in order to perform an NMR investigation using the second nuclear species hyperpolarized in step (e). 2. The method of claim 1 , wherein the first hyperpolarizable nuclear species is 1 H. 3. The method of claim 1 , wherein the second hyperpolarizable nuclear species is 13 C or 15 N. 4. The method of claim 1 , further comprising the step of formulating an injectable solution comprising the hyperpolarized second nuclear species. 5. The method of claim 1 , wherein lowering the magnetic field to which the target material is subjected is carried out by moving the target species from the first region through a mixing field region, in which a magnetic field strength (a so-called “mixing field”) is sufficiently low that a Zeeman energy of the two nuclear species is comparable to or lower than a dipolar interaction energy thereof. 6. The method of claim 5 , wherein the magnetic field B 0 is provided by a first magnet, and wherein a second magnet is provided, having a field opposed to the B 0 field, wherein the mixing field region is provided between the first magnet and the second magnet. 7. The method of claim 6 , wherein the cryostat includes a second cryogenic region at cryogenic temperature, and wherein the sample is moved from the first cryogenic region to the second cryogenic region through the mixing field region. 8. The method of claim 7 , wherein the second cryogenic region is located within the magnetic field of the second magnet, and further comprising the step of dissolving the target material in a liquid solvent, within the second cryogenic region. 9. The method of claim 7 , wherein the first cryogenic region is provided by an immersion cryostat and the second cryogenic region is provided by a flow cryostat. 10. A method for producing a hyperpolarized sample material for use in an NMR investigation, the method comprising the steps of: (a) providing a first cryogenic region; (b) providing a target material containing a first hyperpolarizable nuclear species, a second hyperpolarizable nuclear species and a nuclear spin polarizing agent in the first cryogenic region, wherein the first hyperpolarizable nuclear species has a higher magnetic moment (γ) and is present in greater abundance than the second hyperpolarizable nuclear species; (c) supplying microwave energy to the first cryogenic region to excite electron spin transitions in the polarizing agent in the presence of a magnetic field (B 0 ); (d) causing the first hyperpolarizable nuclear species to interact with the electron spin system in the polarizing agent thereby generating hyperpolarization of at least the first nuclear species of the target material; (e) subjecting the target material to a lowered magnetic field, wherein the lowered magnetic field is such as to facilitate polarization transfer by means of nuclear thermal mixing between the first hyperpolarizable nuclear species and the second hyperpolarization nuclear species, thereby to effect hyperpolarization of the second nuclear species; and (f) presenting the target material to a user in order to perfom an NMR investigation using the second nuclear species hyperpolarizied in step (e). 11. The method of claim 10 , wherein lowering the magnetic field to which the target material is subjected is carried out by moving the target species from the first region through a mixing field region, in which a magnetic field strength (a so-called “mixing field”) is sufficiently low that a Zeeman energy of the two nuclear species is comparable to or lower than a dipolar interaction energy thereof. 12. An apparatus for producing a hyperpolarized sample material for use in an NMR investigation, the apparatus comprising: a first cryogenic region; an element for locating a target material containing a first hyperpolarizable nuclear species and a second hyperpolarizable nuclear species and a nuclear spin polarizing agent in the first cryogenic region; a first magnet, for generating a magnetic field (B 0 ) in the first cryogenic region; a device for supplying microwave energy to the first cryogenic region to excite an electron spin state of the target material in the presence of the magnetic field (B 0 ), thereby hyperpolarizing at least the said first nuclear species; a second magnet, spaced from the first magnet and having a magnetic field opposed to the field produced by the first magnet, thereby to produce, between the first cryogenic region and the second magnet, a mixing field region having a magnetic field which is sufficiently low that a Zeeman energy of the two nuclear species is comparable to or lower than a dipolar interaction energy thereof; and an element for moving the target material from the first cryogenic region through the mixing field region, thereby to facilitate transfer of nuclear polarization from the first hyperpolarizable nuclear species to the second hyperpolarizable nuclear species. 13. The apparatus of claim 12 , wherein the cryostat includes a second cryogenic region at cryogenic temperature, and wherein an element is provided for moving the sample from the first cryogenic region to the second cryogenic region, through the mixing field region. 14. The apparatus of claim 13 , wherein the first cryogenic region is provided by an immersion cryostat and the second cryogenic region is provided by a flow cryostat. 15. The apparatus of claim 12 , wherein magnetic shielding is provided between the first magnet and the second magnet, to shield an earth's magnetic field, wherein a field strength in the mixing field is below 10 μT. 16. The apparatus of claim 12 , wherein the element for moving the target material from the first cryogenic region through the mixing field comprises: (a) a pneumatic actuator; (b) an electro-mechanical drive; or (c) a conduit extending from the first cryogenic region and through the mixing field region, a sample holder slidably received in the conduit and an element for supplying a pressurized fluid to the conduit to cause the sample holder to move through the conduit from the first cryogenic region through the mixing field region.