CN2757187Y - Coherent layout number confinement cold atom clock - Google Patents
Coherent layout number confinement cold atom clock Download PDFInfo
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- CN2757187Y CN2757187Y CNU2004201112383U CN200420111238U CN2757187Y CN 2757187 Y CN2757187 Y CN 2757187Y CN U2004201112383 U CNU2004201112383 U CN U2004201112383U CN 200420111238 U CN200420111238 U CN 200420111238U CN 2757187 Y CN2757187 Y CN 2757187Y
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Abstract
The utility model discloses a coherent layout number confinement cold atom clock which is composed of a vacuum pump, a glass air chamber, a high power semiconductor laser, a small power semiconductor laser, a narrow linewidth semiconductor laser, a high-frequency acoustic-optic modulator, a signal reception processor, a voltage controlled crystal oscillator and a frequency comprehensive frequency multiplier, wherein the vacuum pump is connected with the glass air chamber, the high power semiconductor laser is connected with confinement light beams, the small power semiconductor laser is connected with pumping light beams, the narrow linewidth semiconductor laser is respectively connected with the high-frequency acoustic-optic modulator, coupling light beams and probe light beams, and the voltage controlled crystal oscillator is respectively connected with the signal reception processor and the frequency comprehensive frequency multiplier. The utility model has the advantage of simple structure, the accuracy degree and the stability of the atom clock can be increased, and the utility model can be miniaturized and commercialized.
Description
Technical field:
The utility model relates to a kind of atomic clock device, and relating in particular to the cold atom in the magneto-optic trap is the coherent layout number imprison atomic clock (being called for short the CPT clock) of operation material, is applicable to the fields such as time synchronized of punctual, time service, range finding, navigation, location, communication.
Background technology:
Since first caesium (Cs) atomic clock came out in the world in 1949, the research of atomic clock had received great concern, and various atomic clocks have also progressively obtained at aspects such as astronomy, Aeronautics and Astronautics, basic scientific researches using widely.Traditional atomic clock generally is made up of atomic sample source, magnetic field, microwave source, microwave cavity, acquisition of signal and lock-in circuit.Its principle of work can be summarized as follows: utilize magnetic field to incite somebody to action
133The ground state 6 of Cs
2S
1/2Two hyperfine energy level (F=3,4) separate the atom (as F=3) of only allowing particular level and enter microwave cavity, enter the atom and the microwave interactive of resonator cavity, when the frequency of microwave and the resonance of hyperfine energy level, the caesium atom transits to the quantum state of F=4 from the F=3 quantum state, then the magnetic field that utilizes magnet to produce through microwave excited atom, separation detection is in the shared ratio of atom of F=4 quantum state once more, when microwave frequency equates with the hyperfine resornance frequency, this ratio maximum, utilize it to can be used as error signal and come microwave source is carried out frequency locking, thereby realization can be followed the tracks of the high precision oscillation frequency of atom hyperfine resornance frequency.
In recent years, along with laser cooling and the development of imprison atom technology and the application of new physics principle, the atomic clock technical development is very rapid.People explore more accurate atomic clock on the one hand, constantly seek the new way of atomic clock miniaturization on the other hand.
The atomic clock of American National Standard and technical institute (NIST) develops into NIST-7 and NIST-F1 from NIST-1, experiences for 8 generations, and wherein NIST-1 is traditional atomic clock to NIST-6 basically.1993, NIST-7 puts into effect, NIST-7 also is based on the principle of traditional atomic clock, different is with laser the caesium atom to be carried out pumping earlier before entering the microwave oscillation chamber, a large amount of atoms is located in advance into same state of atom, the magnetic field separation enters the microwave oscillation chamber then, and the improvement of this method has greatly improved signal to noise ratio (S/N ratio), thereby has improved the precision of atomic clock.NIST-F1 has utilized laser to carry out the method for atom cooling and the atomic clock of atom fountain fabrication techniques, eliminated atomic motion and the Doppler effect that causes to the influence of atomic clock precision, the precision of atomic clock is further improved.
First atomic clock should heat owing to need carry out atomic beam emission, focusing, state selection, excite and detect, and vacuumizes again, also need special magnetic field, so equipment is huge.After optical pumping atomic clock technology occurs, atomic clock just obtains towards the chance of miniaturization development, after particularly semiconductor laser occurs, the semiconductor laser that light source in optical pumping rubidium (Rb) atomic clock and wave filter frequency are ω replaces, by selecting frequency is light or the laser instrument excitation rubidium vapor chamber of ω, because pumping effect, the atom that is on the F=1 energy level exhausted in very short time, and the accumulation of the atom on the F=2 energy level, at this moment vapor chamber becomes transparent to light, when resonating when injection microwave in microwave cavity and with hyperfine energy level, between hyperfine energy level, produce transition, atomicity on two energy levels distributes and changes, thereby the light by vapor chamber has been rebulid mechanism of absorption produces absorption, utilizes the light signal of transmission can lock microwave generating source formation atomic clock as error signal.Coherent layout number imprison (CPT:CoherentPopulation Trapping) phenomenon, be meant with laser field and can make the relevant coupling of generation between the atomic energy level with particular configuration, between two energy states of ground state, form the imprison of coherent layout number, thereby realization there is not the counter-rotating light amplification or electromagnetically induced is transparent.Coherent layout number imprison phenomenon has been used to develop the atomic clock of former miniaturization.The principle of coherent layout number imprison atomic clock is, the laser field of two kinds of different frequencies and the effect of Three-level Atom system, if the difference on the frequency of these two laser equals interval between two ground state fine structures of atom, and satisfy the two-photon resonance condition, then two of ground state sub-energy levels just coherently are coupled together, atom on the sub-energy level no longer absorbs photon from two laser fields, can not be excited to excited state, and promptly atom is trapped on two sub-energy levels of ground state.When wherein a branch of light frequency scanned near atomic resonance frequency, the intensity in transmission of light in atomic medium was rendered as the electromagnetically induced transparent signal.Because the electromagnetically induced transparent signal is relevant with respect to the off resonance amount of atomic transition frequency with laser frequency, therefore the electromagnetically induced transparent signal can be used as error signal after treatment and locks the local oscillation signal relevant with the acousto-optic modulator drive signal, thereby realizes the atomic clock loop.
Aspect the development of high precision atomic clock, the NIST-F1 cold atom fountain clock of the U.S. is the most accurate atomic clock in the world at present, and it has adopted the cold atom medium, has effectively eliminated short-term stability and has been better than 1 * 10
-15, but, the microwave cavity structure is arranged because it is traditional microwave atomic clock, and adopt atom fountain technology, the volume of equipment is very huge, and is high about more than 2 meters, can only be applicable to special occasion.And aspect the miniaturization of atomic clock, based on the existing commodity appearance of the room temperature bubble atomic clock of coherent layout number imprison principle, the physical dimension of the normal temperature coherent layout number imprison clock that U.S. Kernco company produces has only several centimeter square, is easy to carry very much.But owing to be subjected to the restriction that atomic spectral line Doppler widens, the live width Δ v of atomic spectrum is not ideal enough, and the degree of stability of normal temperature coherent layout number imprison clock is on the low side, is generally 10
-11~10
-12
Existing in the world atomic clock device or its implementation have two characteristics.The one, the fountain type microwave atomic clock of employing cold atom medium, this scheme can reach the higher stable degree; The 2nd, select for use the room temperature bubble type coherent layout number of no microwave cavity to imprison atomic clock, this scheme can greatly be dwindled the volume of atomic clock.The cold atom fountain microwave clock that degree of stability is high often has huge volume, and complex structure is not easy to carrying; And the coherent layout number of miniaturization imprison atomic clock is simple in structure, but degree of stability is not high, can only satisfy the requirement of low degree of stability index.The feasible scheme that had not also not only had at present the atomic clock of high stability but also Miniaturizable.
Summary of the invention:
The purpose of this utility model provides a kind of coherent layout number imprison cold atomic clock, solves the degree of stability of atomic clock and the problem that miniaturization can not take into account, and this atomic clock is simple in structure, degree of stability height, Miniaturizable.
In order to achieve the above object, the utility model is by the following technical solutions:
Whole device is made of vacuum pump, glass air chamber, high power semiconductor lasers, miniwatt semiconductor laser, narrow linewidth semiconductor laser, high frequency acousto-optic modulator, signal receiving processor, VCXO and frequency synthesis frequency multiplier, vacuum pump links to each other with the glass air chamber, high power semiconductor lasers links to each other with the imprison light beam, the miniwatt semiconductor laser links to each other with pump beam again, and narrow linewidth semiconductor laser links to each other with high frequency acousto-optic modulator, coupled light beam and detecting light beam.VCXO links to each other with the frequency synthesis frequency multiplier with signal receiving processor.
By vacuum pump, glass air chamber, sample source, high power semiconductor lasers, miniwatt semiconductor laser, cooling and imprison light beam, quarter-wave plate, pump beam, ccd video camera, field coil be to forming magnetic light trap system again.Sample source links to each other with the glass air chamber with vacuum pump, glass air chamber and imprison light beam and again pump beam link to each other, quarter-wave plate is imprisoned light beams with 6 bundles respectively and is linked to each other.The glass air chamber, the imprison light beam field coil between.It is right that the imprison light beam passes field coil vertically, and ccd video camera is between the pump beam again and 1 bundle imprison light of a side of glass air chamber.Select less rubidium (Rb) atomic sample of collision frequency displacement for use, and the selection abundance is higher, the isotope at ground state fine structure interval less (3.036GHz)
85Rb is beneficial to improve signal to noise ratio (S/N ratio), lower microwave apparatus and the acousto-optic modulator of apolegamy frequency.Choosing the cold atom sample for preparing in the magneto-optic trap is the actuating medium of atomic clock, from accuracy and the degree of stability that improves atomic clock in essence.
Select coherent layout number imprison atomic clock scheme for use, save the microwave resonance cavity configuration, further reduce the volume of atomic clock.Form coherent layout number imprison optical system by narrow linewidth semiconductor laser, high frequency acousto-optic modulator, catoptron, coupled light beam, polarization beam splitter prism, lens, photodiode, detecting light beam, signal receiving processor.The glass air chamber links to each other with detecting light beam with coupled light beam, coupled light beam is successively by catoptron, polarization beam splitter prism, glass air chamber, polarization beam splitter prism, the glass air chamber links to each other with detecting light beam, detecting light beam passes through catoptron, polarization beam splitter prism, glass air chamber, polarization beam splitter prism, lens successively, and links to each other with photodiode.Detecting light beam oppositely overlaps in the glass air chamber with coupled light beam.
By signal receiving processor, voltage controlled oscillator, frequency synthesis frequency multiplier, microwave signal amplifier composed atom clock loop.Crystal oscillator signal after stable is exported by the frequency standard signal output part.Signal receiving processor links to each other with photodiode, and the frequency synthesis frequency multiplier links to each other with the microwave signal amplifier, and the high frequency acousto-optic modulator links to each other with the ripple signal amplifier.VCXO links to each other with the frequency standard signal output part.
The utility model compared with prior art has the following advantages:
(1) selects coherent layout number imprison atomic clock scheme for use, and replace the common hot atom that adopts of coherent layout number imprison clock with the cold atom medium for preparing in the magneto-optic trap, because the heat movement speed of cold atom is little, the firsts and seconds of cold atom spectrum is multispectral rein in widen very little, help atomic spectral line precision measurement, realize the high stability atomic clock.
(2) owing to there is not the generation of resonance absorption, coherent layout number imprison method can greatly be eliminated single order optical frequency shift phenomenon, thereby improves the accuracy of atomic clock.Coherent layout number imprison method does not need microwave signal to directly act on atom, has saved the microwave action chamber, and the structure of device is greatly simplified.
(3) coherence time of cold atom medium long, the imprison of favourable realization coherent layout number.
(4) choose
85The transition signal of Rb atomic ground state 3.036GHz is as the clock transition signal, and adopts the acousto-optic modulator of 3.0GHz to realize that coherent layout number imprison laser is right, can match the lower microwave apparatus equipment of frequency, implements easily on experimental technique.
(5) the coherent layout number that constitutes with glass air chamber magneto-optic trap is imprisoned cold atomic clock, both can reach the degree of accuracy and the degree of stability of fountain type cold atom microwave clock, can possess the advantage of coherent layout number imprison atomic clock miniaturization again, has broad application prospects.
Description of drawings:
Fig. 1 is the structural representation of coherent layout number imprison cold atomic clock.
Fig. 2 is the energy level synoptic diagram of the coherent layout number imprison rubidium atom that cold atomic clock adopted.
Specific embodiments:
Below in conjunction with accompanying drawing the utility model is described in further detail:
But sample source 2 is connected glass vesicle of sintering on the valve between ionic pump and main system, package metals rubidium in the vesicle, and as sample source, the rubidium steam in the vesicle can slowly infeed main system.
The glass air chamber that glass air chamber 3 adopts full glass optics window to be welded to form with regular geometric shapes, but an end link to each other with sample source, ionic pump through valve, all the other sides see through multi-path laser bundle, installation field coil.
Field coil is installed on the pair of light-transmissive window face of glass air chamber a pair of anti-helmholtz coil that 4 usefulness enameled wire coilings form, and passes to equal and opposite in direction, electric current that direction is opposite.Select suitable ampere-turn ratio, make coil near the center of glass air chamber, axially producing magnetic field gradient about 15Gauss/cm along coil.
High power semiconductor lasers 5 is generally selected the DL100 type laser instrument or the suitable laser instrument of other performance of TOPTICA company for use, output laser power 60mW is above, wavelength tuning is at 780.24nm, linear polarization is used to provide cooling of atoms, forms the imprison light of magneto-optic trap.
Cooling and imprison light beam 6: with the light of high power semiconductor lasers 5 outputs, expand bundle earlier, be divided into 6 bundle light 6a, 6b, 6c, 6d, 6e and 6f that intensity equates again, the power of every Shu Guang is about 10mW, forms 3 couples of light beam 6a-6b, the 6c-6d, the 6e-6f that propagate in opposite directions, and wherein 6a-6b, 6c-6d light beam are to along continuous straight runs, 6e-6f is the (direction of vertical paper vertically, do not mark in the drawings), 3 pairs of light beams are vertical in twos, in the glass air chamber, the center in magnetic field intersects.
Quarter-wave plate 7 wavelength are 780nm, totally 6, comprise 7a, 7b, 7c, 7d, 7e and 7f, be placed near the light beam 6a of glass air chamber respectively, 6b, 6c, 6d, (quarter-wave plate 6e and 6f are in vertical direction in incident place of 6e and 6f, do not mark in the drawings), allow light beam pass through from the central vertical of quarter-wave plate, the angle of the optical axis of adjusting quarter-wave plate and the polarization direction of light beam, make quarter-wave plate 7a, 7c, the optical axis of 7e respectively with light beam 6a, 6c, the polarization direction of 6e becomes clockwise 45, makes quarter-wave plate 7b, 7d, the optical axis of 7f respectively with light beam 6b, 6d, the polarization direction of 6f becomes counterclockwise 45.
Ccd video camera 10 adopts common supervision ccd video camera, is used with monitor, is used for monitoring the fluorescence signal that cold atom that the magneto-optic trap is imprisoned is rolled into a ball.During miniaturization, ccd video camera can save.
Narrow linewidth semiconductor laser 11 is selected the DL100 type laser instrument or the suitable laser instrument of other performance of TOPTICA company for use, output laser power 15mW is above, wavelength tuning is at 795nm, linear polarization is used to provide the coupling light of coherent layout number imprison and surveys light.
High frequency acousto-optic modulator 12 is selected the high frequency acousto-optic modulator or the suitable high frequency acousto-optic modulator of other performance of BRIMROSE company for use, and centre frequency is 3.0GHz, tuning range ± 100MHz.
Catoptron 13 plating 780nm, 45 ° of incident total reflection films comprise three of 13a, 13b and 13c.
Coupled light beam 14 is the light beam of narrow linewidth semiconductor laser 11 outputs, 0 grade of light behind high frequency acousto-optic modulator 12, and power is 10mW, horizontal polarization is with the cold atom group in the catoptron 13a reflection back irradiation magneto-optic trap.
The extinction ratio of polarization beam splitter prism 15 is 1000: 1, and transparent surface plating 780nm anti-reflection film needs two 15a, 15b altogether.
Photodiode 17 is selected general large tracts of land, high-gain photodiode for use.
Detecting light beam 18 is-1 grade light of light beam behind high frequency acousto-optic modulator 12 of narrow linewidth semiconductor laser 11 outputs, beam diameter is limited to about 1mm, power is 1 μ W, vertical polarization, with the cold atom group of passing after catoptron 13b and the 13c reflection in the magneto-optic trap, propagate in opposite directions through polarization beam splitter prism 15b and coupled light beam 14, and be contained in fully in the coupled light beam 14, at the opposite side of glass air chamber through polarization beam splitter prism 15a with after coupled light beam 14 is separated, focus on the photodiode 17 through lens 16.
VCXO 20 is a commodity high stability VCXO, and frequency is 10MHz or 5MHz, and short-term stability is better than 1 * 10
-11
Frequency synthesis frequency multiplier 21 is universal frequency synthesizer, with the 10MHz of VCXO 20 outputs or the sinusoidal signal of 5MHz, is converted to 3036MHz.
Frequency standard signal output part 23 is the SMA interface of standard, in order to export the frequency signal of the VCXO after stablizing.
According to shown in Figure 1, vacuum pump 1, sample source 2, glass air chamber 3, field coil to 4, high power semiconductor lasers 5, cooling and imprison light beam 6, quarter-wave plate 7, miniwatt semiconductor laser 8, pump beam 9 and ccd video camera 10 are formed magnetic light trap systems again, be mainly the coherent layout number and imprison cold atomic clock and prepare the cold atom sample.According to shown in Figure 2, cooling and the frequencies omega of imprisoning light 6
TBe tuned at
85Rb atom D
2Line transition 5S
1/2, F=3 → 5P
3/2, near F '=4, and than about the little 12MHz of atomic transition frequency.The frequencies omega of pump beam 9 again
RBe tuned at
85Rb atom D
2Line transition 5S
1/2, F=2 → 5P
3/2, near F '=3.When the vacuum tightness of system is better than 5 * 10
-7During pa, regulate light path and magnetic field, promptly can realize
85The cooling of Rb atom and imprison, but the formation of the cold former group of usefulness ccd video camera 10 real time monitorings.
According to shown in Figure 1, narrow linewidth semiconductor laser 11, high frequency acousto-optic modulator 12, catoptron 13, coupled light beam 14, polarization beam splitter prism 15, lens 16, photodiode 17, detecting light beam 18 and signal receiving processor 19 are formed the optical system of coherent layout number imprison.According to shown in Figure 2, the frequencies omega of coupling light 14
cBe tuned at
85Rb atom D
1Line transition 5S
1/2, F=3 → 5P
1/2, on F '=3, survey the frequencies omega of light 18 accordingly
pBe tuned at
85Rb atom D
1Line transition 5S
1/2, F=2 → 5P
1/2, on F '=3.After in magnetic light trap system, preparing cold atom, just can realize the coherent layout number imprison of cold atom.
Above technical scheme can realize a kind of simple in structure, degree of stability is high, the atomic clock of miniaturization, have broad application prospects.
Claims (6)
1, a kind of coherent layout number imprison cold atomic clock, it is by vacuum pump (1), sample source (2), glass air chamber (3), high power semiconductor lasers (5), miniwatt semiconductor laser (8), narrow linewidth semiconductor laser (11), high frequency acousto-optic modulator (12), signal receiving processor (19), VCXO (20) and frequency synthesis frequency multiplier (21) constitute, it is characterized in that vacuum pump (1) links to each other with glass air chamber (3), high power semiconductor lasers (5) and imprison light beam (6a), (6b), (6c), (6d), (6e), (6f) link to each other, miniwatt semiconductor laser (8) links to each other with pump beam (9) again, narrow linewidth semiconductor laser (11) and high frequency acousto-optic modulator (12), coupled light beam (14) links to each other with detecting light beam (18), and VCXO (20) links to each other with frequency synthesis frequency multiplier (21) with signal receiving processor (19).
2, a kind of coherent layout number imprison cold atomic clock according to claim 1, it is characterized in that sample source (2) links to each other with glass air chamber (3) with vacuum pump (1), glass air chamber (3) reaches pump beam (9) with imprison light beam (6a), (6b), (6c), (6d), (6e), (6f) again and links to each other, and quarter-wave plate (7a), (7b), (7c), (7d), (7e), (7f) link to each other with imprison light beam (6a), (6b), (6c), (6d), (6e), (6f) respectively.
3, a kind of coherent layout number imprison cold atomic clock according to claim 1, it is characterized in that glass air chamber (3), imprison light beam (6a), (6b), 6c), (6d) be positioned at field coil between (4), imprison light beam (6e), (6f) pass field coil vertically to (4), ccd video camera (10) is positioned at a side of glass air chamber (3), and ccd video camera (10) is positioned at imprison light beam (6b) and again between the pump beam (9).
4, a kind of coherent layout number imprison cold atomic clock according to claim 1, it is characterized in that glass air chamber (3) links to each other with detecting light beam (18) with coupled light beam (14), coupled light beam (14) is successively by catoptron (13a), polarization beam splitter prism (15a), glass air chamber (3), polarization beam splitter prism (15b).
5, a kind of coherent layout number imprison cold atomic clock according to claim 1, it is characterized in that glass air chamber (3) links to each other with detecting light beam (18), detecting light beam (18) is successively by catoptron (13b), (13c), polarization beam splitter prism (15b), glass air chamber (3), polarization beam splitter prism (15a), lens (16), and link to each other the backpropagation and overlapping fully in glass air chamber (3) of detecting light beam (18) and coupled light beam (14) with photodiode (17).
6, a kind of coherent layout number imprison cold atomic clock according to claim 1, it is characterized in that signal receiving processor (19) links to each other with photodiode (17), frequency synthesis frequency multiplier (21) links to each other with microwave signal amplifier (22), high frequency acousto-optic modulator (12) links to each other with ripple signal amplifier (22), and VCXO (20) links to each other with frequency standard signal output part (23).
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CN101488753B (en) * | 2009-02-17 | 2011-07-27 | 北京大学 | Atomic clock reference frequency obtaining method and atomic clock |
US8373112B2 (en) | 2008-03-12 | 2013-02-12 | Cnrs | Cold atom interferometry sensor |
CN102997959A (en) * | 2011-09-13 | 2013-03-27 | 霍尼韦尔国际公司 | Systems and methods for gettering an atomic sensor |
US9134450B2 (en) | 2013-01-07 | 2015-09-15 | Muquans | Cold atom gravity gradiometer |
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US8373112B2 (en) | 2008-03-12 | 2013-02-12 | Cnrs | Cold atom interferometry sensor |
CN101488753B (en) * | 2009-02-17 | 2011-07-27 | 北京大学 | Atomic clock reference frequency obtaining method and atomic clock |
CN102997959A (en) * | 2011-09-13 | 2013-03-27 | 霍尼韦尔国际公司 | Systems and methods for gettering an atomic sensor |
US9134450B2 (en) | 2013-01-07 | 2015-09-15 | Muquans | Cold atom gravity gradiometer |
CN107709922A (en) * | 2016-03-31 | 2018-02-16 | 甘万达 | Matter wave treatment method and non-intrusion type check equipment |
CN107709922B (en) * | 2016-03-31 | 2022-03-04 | 甘万达 | Substance wave treatment method and non-invasive examination apparatus |
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CN108519565A (en) * | 2018-04-09 | 2018-09-11 | 四川大学 | Low field strength analyzer based on the weak measurement of quantum and method |
CN108519565B (en) * | 2018-04-09 | 2021-01-22 | 四川大学 | Low-intensity magnetic field intensity measurement analyzer and method based on quantum weak measurement |
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