- Patent Number:
11707,634
- Appl. No:
17/019263
- Application Filed:
September 13, 2020
- نبذة مختصرة :
The invention pertains to advances in real-time methods in nuclear magnetic resonance by offering a new dual-frequency dynamic nuclear polarization (DNP) method that uses a microwave beam to polarize the spins of electrons and concomitantly act as a NMR transmitter.
- Inventors:
Ibragimova, Olena (Ottweiler-Fuerth, DE); Ibragimov, Ilgiz (Ottweiler-Fuerth, DE)
- Assignees:
Elegant Mathematics LLC (Sheridan, WY, US)
- Claim:
1. A method of DNP-NMR measurement, the method comprising: providing material(s) to be investigated; exciting the material(s) with at least one modulated electromagnetic signal; providing a permanent magnetic field in a measurement area; placing the material(s) to be investigated into the measurement area; providing at least one NMR detector that is placed in proximity to the measurement area; and obtaining at least one NMR signal from at least one NMR detector, whereby the modulated electromagnetic signal is an electromagnetic signal of electron Larmor frequency with modulated amplitude.
- Claim:
2. The method of claim 1 , wherein the material(s) are placed into a tube located within the measurement area, said tube being divided into two or more parts with each part having different DNP-NMR intensities and/or frequencies.
- Claim:
3. The method of claim 1 , wherein the DNP-NMR measurements are performed during separation of the material(s).
- Claim:
4. The method of claim 1 , wherein the DNP-NMR measurements are performed in several areas, with the concentration of at least one measured component differing between measured areas.
- Claim:
5. The method of claim 1 , wherein the DNP-NMR measurements are performed several times in the same area, with the concentration of at least one measured component differing between measurements.
- Claim:
6. The method of claim 1 , wherein the measurements are performed in several areas during separation by external means, so that the concentration of at least one measured component differs between measured areas.
- Claim:
7. The method of claim 1 , wherein the measurements are performed several times in the same area during separation by external means, so that the concentration of at least one measured component differs between measured areas.
- Claim:
8. The method of claim 1 , wherein the material(s) for the investigation are fluid.
- Claim:
9. The method of claim 1 , wherein the NMR signal is forwarded from the NMR detector to an electronic board, whereby the distance between the NMR detector and the electronic board is smaller than the wavelengths of the NMR frequencies.
- Claim:
10. The method of claim 1 , wherein the permanent magnetic field is formed by at least one magnet made of conductive material.
- Claim:
11. The method of claim 1 , wherein the amplitude modulation of the electron Larmor frequency electromagnetic signal refers to a pulse with nuclear Larmor frequency.
- Claim:
12. The method of claim 1 , wherein the modulated electromagnetic signal is formed by interaction of electrons with a permanent magnetic field, and the permanent magnetic field used for forming the modulated electromagnetic signal shares a source with said permanent magnetic field provided in the measurement area.
- Claim:
13. The method of claim 1 , wherein a plurality of modulated electromagnetic signals are used and those signals interfere with each other.
- Claim:
14. The method of claim 1 , wherein the material(s) are placed into a tube located within the measurement area, the tube being rotatable about and movable along its longitudinal axis.
- Claim:
15. The method of claim 1 , wherein the permanent magnetic field is formed by either: at least one external superconductor magnet, or at least one permanent magnet having non-uniform magnetic polarization so that the magnetic strength in the measurement area is greater than the magnetic strength of an anisotropic magnet of the same material and size.
- Claim:
16. The method of claim 1 , wherein the material(s) are placed into a tube located within the measurement area, said tube being divided into two or more parts with each part being made from different chemical materials with different non-zero-spin isotope compositions.
- Claim:
17. The method of claim 1 , wherein the measurements are evaluations of droplet size and/or particle size distribution.
- Claim:
18. A method of DNP-NMR measurement, the method comprising: providing material(s) to be investigated in an excitation area; exciting the material(s) with at least one modulated electromagnetic signal; providing a permanent magnetic field in a measurement area; moving the material(s) to be investigated from the excitation area into the measurement area; providing at least one NMR detector that is placed in proximity to the measurement area; and obtaining at least one NMR signal from at least one NMR detector, whereby the modulated electromagnetic signal is an electromagnetic signal of electron Larmor frequency with modulated amplitude.
- Claim:
19. The method of claim 18 , wherein the flow direction and speed of the material(s) to be investigated are additionally measured by means of measuring delay responses in the NMR experiment.
- Claim:
20. The method of claim 18 , wherein a plurality of modulated electromagnetic signals are used.
- Patent References Cited:
8035388 October 2011 Casanova
8148988 April 2012 Blumich
20030223528 December 2003 Miley
20120223709 September 2012 Schillak
- Assistant Examiner:
Nasir, Taqi R
- Primary Examiner:
Hollington, Jermele M
- Attorney, Agent or Firm:
Elegant Mathematics LLC
- الرقم المعرف:
edspgr.11707634
Processing Request
No Comments.