IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0406276
(2009-03-18)
|
등록번호 |
US-8288712
(2012-10-16)
|
우선권정보 |
EP-08305062 (2008-03-19) |
발명자
/ 주소 |
- Bouyer, Philippe
- Josse, Vincent
- Guerin, William
- Billy, Juliette
- Landragin, Arnaud
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
5 |
초록
▼
A guided coherent atom source (1) includes elements for generating neutral atoms in a gaseous state (2), elements for cooling the atoms gas (3), elements for generating a magnetic field (4), including an electro-magnetic micro-chip (6) deposited on a surface (18) of a substrate (14), and capable of
A guided coherent atom source (1) includes elements for generating neutral atoms in a gaseous state (2), elements for cooling the atoms gas (3), elements for generating a magnetic field (4), including an electro-magnetic micro-chip (6) deposited on a surface (18) of a substrate (14), and capable of condensing the atoms in a magnetic trap, elements for generating an electro-magnetic RF field capable of extracting the condensed atoms, optical elements (10) for emitting and directing an optical coherent beam (12) toward the condensed atoms able to guide the condensed atoms, characterized in that the optical elements (10) and the electro-magnetic micro-chip (6) are integrated onto the same substrate (14). An atomic interferometer using such a source is also disclosed.
대표청구항
▼
1. Guided Coherent Atom Source (1) comprising: an alkaline, alkaline earth or rare earth atom source for generating neutral alkaline, alkaline earth or rare earth atoms in a gaseous state (2);means for cooling the atoms gas (3);means for generating a magnetic field (4), comprising an electro-magneti
1. Guided Coherent Atom Source (1) comprising: an alkaline, alkaline earth or rare earth atom source for generating neutral alkaline, alkaline earth or rare earth atoms in a gaseous state (2);means for cooling the atoms gas (3);means for generating a magnetic field (4), comprising an electro-magnetic micro-chip (6) deposited on a surface (18) of a substrate (14), for condensing the atoms in a magnetic trap;means for generating an electro-magnetic RF field comprising at least one of i) electrical wires, ii) an external antenna, and iii) an integrated antenna for extracting the condensed atoms trapped in the magnetic trap; andoptical means (10) comprising a diode laser (20) for emitting and directing an optical coherent beam (12) toward the condensed atoms able to guide the condensed atoms,wherein,the optical means (10) and the electro-magnetic micro-chip (6) are integrated onto the same substrate (14), andthe substrate surface comprises an optical coating (26) able to reflect at the trapping wavelength for > atoms and is transparent at the wavelength of the optical coherent beam (12). 2. Source according to claim 1, wherein the electro-magnetic micro-chip (6) and the optical means (10) are located one relatively to the other to ensure built-in intersection of the magnetic trap and of the optical waveguide. 3. Source according to claim 2, wherein the axis (16) of the optical coherent beam (12) is centered onto the magnetic trap for condensed atoms. 4. Source according to claim 2, wherein the emission axis (17) of the optical coherent beam (12) is transverse with respect to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 5. Source according to claim 2, wherein the emission axis (17) of the optical coherent beam (12) is parallel to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 6. Source according to claim 1, wherein the emission axis (17) of the optical coherent beam (12) is transverse with respect to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 7. Source according to claim 1, wherein the emission axis (17) of the optical coherent beam (12) is parallel to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 8. Source according to claim 1, wherein the optical means (10) comprise a Vertical Cavity Surface Emitting Laser (or VCSEL) (22). 9. Source according to claim 8, characterized in that the optical means (10) include a microlens (24) for directing the optical coherent beam (12). 10. Source according to claim 1, wherein the optical means (10) include a microlens (24) for directing the optical coherent beam (12). 11. Source according to claim 1, wherein the atoms are 87Rb atoms. 12. Source according to claim 1, wherein the means for generating a magnetic field (4) comprise means for generating a permanent magnetic field. 13. Source according to claim 12, wherein the means for generating a permanent magnetic field comprise a magnet layer (28) integrated into the substrate (14). 14. Source according to claim 13, wherein the electro-magnetic micro-chip (6) and the optical means (10) are located one relatively to the other to ensure built-in intersection of the magnetic trap and of the optical waveguide. 15. Source according to claim 13, wherein the axis (16) of the optical coherent beam (12) is centered onto the magnetic trap for condensed atoms. 16. Source according to claim 13, wherein the emission axis (17) of the optical coherent beam (12) is transverse with respect to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 17. Source according to claim 13, wherein the emission axis (17) of the optical coherent beam (12) is parallel to the substrate (14) surface (18) bearing the electro-magnetic micro-chip (6). 18. Source according to claim 13, wherein the optical means (10) comprise a Vertical Cavity Surface Emitting Laser (or VCSEL) (22). 19. Source according to claim 13, wherein the optical means (10) include a microlens (24) for directing the optical coherent beam (12). 20. Source according to claim 13, wherein the atoms are 87Rb atoms. 21. Source according to claim 13, wherein the electro-magnetic micro-chip comprises electrically conductive wires in a shape chosen from Z-shape, U-shape, double Z-shape, and/or concentric circles. 22. Source according to claim 21, wherein the electro-magnetic micro-chip comprises multilayer electrically conductive wires. 23. Atomic Interferometer comprising at least one source according to claim 13 and means for generating optical beams capable of creating Bragg or Raman-type wavepacket manipulation of the atoms from the said guided coherent atom source. 24. Source according to claim 1, wherein the electro-magnetic micro-chip comprises electrically conductive wires in a shape chosen from Z-shape, U-shape, double Z-shape, and/or concentric circles. 25. Source according to claim 14, wherein the electro-magnetic micro-chip comprises multilayer electrically conductive wires. 26. Atomic Interferometer comprising at least one source according to claim 1 and means for generating optical beams capable of creating Bragg or Raman-type wavepacket manipulation of the atoms from the said guided coherent atom source. 27. Guided Coherent Atom Source (1), comprising: an alkaline, alkaline earth or rare earth atom source for generating neutral alkaline, alkaline earth or rare earth atoms in a gaseous state (2);means for cooling the atoms gas (3); means for generating a magnetic field (4), comprising an electro-magnetic micro-chip (6) deposited on a surface (18) of a substrate (14), and configured for condensing the atoms in a magnetic trap;means for generating an electro-magnetic RF field comprising at least one of i) electrical wires, ii) an external antenna, and iii) an integrated antenna arranged for extracting the condensed atoms trapped in the magnetic trap; andoptical means (10) comprising a diode laser (20) for emitting and directing an optical coherent beam (12) toward the condensed atoms able to guide the condensed atoms, wherein,the optical means (10) and the electro-magnetic micro-chip (6) are integrated onto the same substrate (14), andthe means for generating a magnetic field (4) comprise means for generating a permanent magnetic field, said means for generating a permanent magnetic field comprising a magnet layer (28) integrated into the substrate (14),the substrate surface comprises an optical coating (26) able to reflect at the trapping wavelength for > atoms and is transparent at the wavelength of the optical coherent beam (12).
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