CN1445581A - Stark chirp optical bistable fast switch device - Google Patents
Stark chirp optical bistable fast switch device Download PDFInfo
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- CN1445581A CN1445581A CN 03115592 CN03115592A CN1445581A CN 1445581 A CN1445581 A CN 1445581A CN 03115592 CN03115592 CN 03115592 CN 03115592 A CN03115592 A CN 03115592A CN 1445581 A CN1445581 A CN 1445581A
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Abstract
A stark chirp optical bistable fast switch device is characterized in that the device comprises: the device comprises a laser pump source, a laser light source, a semi-transparent semi-reflective polarizing element, a polarizing plane reflecting element, a frequency doubling crystal, a pulse delay device, a pulse delay monitoring controller, a medium cavity and a receiving device. The switch device has the characteristics of simple structure, easy operation, high particle number reversal efficiency and high switching speed.
Description
Technical field:
The present invention is a kind of Stark optical bistability high-speed switch of warbling.Be mainly used to produce the optical system of nonlinearities change according to controllable way.
Background technology:
The people such as Ukraine Ya Tesenke (L P.Yatsenko) " utilize Stark warble the quick thermal insulation technology of following produce coherent superposition state " (Creation of coherent superpositions usingStark-chirped rapid adiabatic passage) and German Rake this etc. the people but the practical instrument that does not provide a kind of Stark to warble the optical bistability high-speed switch has been provided in " utilize induced with laser Stark move _ two-photon excitation realizes that effective adiabatic probability shifts " (Efficientadiabatic population transfer by two-photon excitation assisted ba laser-induced Stark shift) literary composition about Stark the warble energy shift and produce the theoretical of coherent states and test of exhausted thermogenetic Stark of warbling fast.
Summary of the invention:
The purpose of this invention is to provide a kind of Stark optical bistability fast-switching arrangement of warbling that has, utilize Stark pulse and pumping pulse to overlap and delay excites actuating medium to produce the Stark energy level to move and form coherent superposition state, with suitable boundary conditions Control work medium, realize the optical bistability high-speed switch.This device should have simple in structure, operates and realize the characteristics of clean population inversion easily.
Technical solution of the present invention is as follows:
A kind of Stark optical bistability fast-switching arrangement of warbling is characterized in that this device is that preface comprises successively according to optical propagation direction: laser pumping source, LASER Light Source, polarizing component, plane reflection element, frequency-doubling crystal, pulse daley device, pulse daley monitor controller, dielectric cavity and receiving trap;
Above-mentioned laser pumping source is a laser diode, or other laser instrument.
The laser instrument of above-mentioned LASER Light Source can be the optical fiber solid state laser, or semiconductor laser, or other solid-state laser.
Above-mentioned polarizing component is the level crossing of a plating polarizing coating.
Above-mentioned plane reflection element is the level crossing of a plating polarizing coating.
Above-mentioned frequency-doubling crystal can be bbo crystal or lbo crystal or KDP crystal or ktp crystal.
The optical system that optical system that above-mentioned pulse daley device is made up of optical element or optical fiber are formed.
Above-mentioned pulse daley monitor controller can be pulse producer and detecting element.
Above-mentioned dielectric cavity is medium to be placed to constitute on the light path in the ring cavity or medium is placed on the light path of F-P etalon constitute.
Above-mentioned actuating medium is atom, ion, molecule or the semiconductor material of two-level energy system.
Above-mentioned receiving trap can be CCD diode array detector, or photodiode, or photomultiplier, or the hyperchannel plate, or oscillograph, or computing machine, or operative installations.
The warble advantage of optical bistability fast-switching arrangement of Stark of the present invention:
1. use structure of the present invention can realize that the Stark optical bistability high-speed switch of warbling can realize;
2. the Stark spendable material of optical bistability high-speed switch actuating medium of warbling is more;
3. the efficient height of population inversion;
4. polarizing component and level crossing are realized easily, and available kind is more;
5. whole device all solidifies, and is simple in structure, easily operation.
Description of drawings:
Fig. 1 is the Stark of the present invention optical bistable switch most preferred embodiment structural representation of warbling.
Fig. 2 is the Stark of the present invention AA cut-open view in the pulse daley device of warbling in the optical bistable switch device.
Fig. 3 is the Stark of the present invention optical bistable switch device medium chamber BB cut-open view of warbling.
Among the figure: level crossing 704-fully-reflected plane speculum 705-fully-reflected plane speculum of the plane mirror 702-working media 703 of 1-laser pumping source, 2-laser instrument 3-semi-transparent semi-reflecting polarizing component 4-inclined to one side reflecting element 5-frequency-doubling crystal 6-pulse daley device 7-dielectric cavity 8-receiving system 9-display 10-pulse daley monitor controller 601-pump light plane mirror 602-Stark pulsed light plane mirror 603-Stark pulsed light plane mirror 604-pump light plane mirror 701-transmission 4%-reflection 96%
Embodiment:
See also Fig. 1 earlier, Fig. 1 is the warble structural representation of optical bistability fast-switching arrangement most preferred embodiment of Stark of the present invention, as seen from the figure, the Stark of the present invention optical bistability fast-switching arrangement of warbling, comprise, most crucial element is a frequency-doubling crystal 5, pulse daley device 6, pulse daley monitor controller 10 and dielectric cavity 7, placing pulse-delay unit 6 has been inclined to one side plane mirror 4 and frequency-doubling crystal 5 before, placing frequency-doubling crystal 5 is semi-transparent semi-reflecting inclined to one side plane mirror 3 before, place the plane of incidence of semi-transparent semi-reflecting inclined to one side plane mirror 3 that LASER Light Source 2 and laser pumping source 1 are arranged before, pulse daley monitor controller 10 places pulse daley device 6 sides, after the pulse daley device 6 is dielectric cavity 7, and receiving trap 8 places after the dielectric cavity 7, connects one after the receiving trap 8 and receives display 9.
Said LASER Light Source 2 constitutes with fiber laser, laser pumping source 1 is a laser diode, LASER Light Source 2 emitted laser incide on semi-transparent semi-reflecting the inclined to one side plane mirror 3, reflected light is to produce Stark light pulse Is, transmitted light incides on the frequency-doubling crystal 5 after having incided on the inclined to one side catoptron 4, after frequency-doubling crystal 5 frequencys multiplication, form pump light pulse Ip, pump light pulse Ip and Stark light pulse Is incide on the pulse-delay unit 6, adjust by pulse daley monitor controller 10, make about 30% to 70% pulsewidth of the leading pump light pulse of Stark light pulse Is Ip, guarantee simultaneously to have between two pulses 20% to 80% overlapping.Partly overlapping two pulses are incided in the dielectric cavity 7 simultaneously, deliver on the display 9 after the signal that on-off action arranged is received by receiving trap 8 to show.
Said polarizing component 4 is plating polarizing coating level crossings.
Said semi-transparent semi-reflecting polarizing component 3 is level crossings of the semi-transparent semi-reflecting polarizing coating of plating.
Said LASER Light Source 2 is optical fiber solid state lasers, or semiconductor laser, or other solid-state laser.
Said laser pumping source 1 is a laser diode, or other laser instrument.
Said frequency multiplication element 5 can be made of bbo crystal or lbo crystal or KDP crystal or ktp crystal.
Said pulse daley device 6 is formed by a series of arrangements of mirrors, as shown in Figure 2, by pulse daley monitor controller 10 control Stark light pulse Is and pump light pulse Ip the overlapping of 20% to 80% pulse width arranged, and the leading pump light pulse of Stark light pulse Is Ip30% to 70% pulsewidth.
Said dielectric cavity 7 is by placing actuating medium or Fa Buli in the ring cavity---and place actuating medium in the Perot etalon tool and constitute, as shown in Figure 3.
Said receiving trap 8 is CCD diode array detectors, or photodiode, or photomultiplier, or the hyperchannel plate, or oscillograph, or computing machine, or operative installations.
The warble course of work of optical bistability fast-switching arrangement of Stark of the present invention is:
When laser that laser instrument 2 sends behind semi-transparent semi-reflecting inclined to one side plane mirror 3, its reflected light forms Stark light pulse Is, transmitted light incides on the frequency-doubling crystal 5 through playing inclined to one side plane mirror 4, light after the frequency multiplication forms pump light pulse Ip, the incident face F of pulse daley device 6 is incided in the two-beam pulse, Stark light pulse Is is through plane mirror 604 and 601 first exit facet E outgoing by pulse daley device 6, pump light pulse Ip postpones 30% or to 70% with Stark light pulse Is coaxial overlapping 20% or to 80% backward, exit facet E outgoing by pulse daley device 6, Stark light pulse Is incides the plane mirror 701 in the dielectric cavity 7 earlier, referring to Fig. 3, enter afterwards in the actuating medium 702, the electronics of actuating medium is energized into Stark from ground state level, and to incide transmissivity after warbling on the energy level be on 4% the level crossing 703,96% light pulse reflexes to after the fully-reflected plane mirror 704, incide fully-reflected plane mirror 705, it is on 4% the plane mirror 701 that transmissivity is got back in the light pulse of reflection again.Pump light pulse Ip postpones 30% or to 70% with Stark light pulse Is coaxial overlapping 20% or to 80% plane mirror 701 that incides in the dielectric cavity 7 backward, enter afterwards in the actuating medium 702, the ground state electronics all is energized into Stark warbles on the energy level, form coherent superposition state by nonlinear coupling effects, 96% luminous energy circulates in ring cavity, and characteristic with optical bistability, can between two attitudes of optical bistability, switch from the light pulse of dielectric cavity 7 outgoing, play the effect of opening fast and closing.The light pulse of outgoing is transported on the receiving trap 8.
In device shown in Figure 1, LASER Light Source 2 usefulness solid state lasers are made light source, and Shu Chu wavelength is at 1064nm simultaneously, output power 0.01W.Frequency-doubling crystal 5 is bbo crystals, and the pumping light pulse wavelength is 532nm, and pulse width is 200ps, pulse-delay unit 6 be controlled at two light pulses have 50% overlapping, leading 50% pulsewidth of Stark light pulse.Actuating medium is Li
-Ion, dielectric cavity are that two transmissivities are level crossing and two ring cavitys that fully-reflected plane mirror is formed of 4%.The on-off effect speed of this device is at 100ps.
Claims (10)
1, a kind of Stark optical bistability fast-switching arrangement of warbling is characterized in that this device comprises: laser pumping source (1), LASER Light Source (2), semi-transparent semi-reflecting polarizing component (3), play inclined to one side plane reflection element (4), frequency-doubling crystal (5), pulse daley device (6), pulse daley monitor controller (10), dielectric cavity (7) and receiving trap (8);
The position relation of above-mentioned each component is as follows: LASER Light Source (2) emitted laser bundle incides on the semi-transparent semi-reflecting polarizing component (3), its reflected light forms Stark light pulse Is, and transmitted light has incided and has been reflected on the frequency-doubling crystal (5) on the inclined to one side plane mirror (4), after frequency-doubling crystal (5) frequency multiplication, form pump light pulse Ip, pump light pulse Ip and Stark light pulse Is incide on the pulse-delay unit (6), adjust by pulse daley monitor controller (10), make about 30% to 70% pulsewidth of the leading pump light pulse of Stark light pulse Is Ip, guarantee simultaneously to have between two pulses 20% to 80% overlapping.Partly overlapping two pulses are incided in the dielectric cavity (7) simultaneously, the flashlight that has optical bistability with formation.
2, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that described laser pumping source (1) is a laser diode, or other laser instrument.
3, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that the laser instrument of described LASER Light Source (2) can be the optical fiber solid state laser, or semiconductor laser, or other solid-state laser.
4, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that described semi-transparent semi-reflecting polarizing component (3) is one to be coated with the level crossing of polarizing coating.
5, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that described inclined to one side plane reflection element (4) is the level crossing of plating polarizing coating.
6, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that described frequency-doubling crystal (5) can be bbo crystal or lbo crystal or KDP crystal or ktp crystal.
7, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that the optical system that optical system that described pulse daley device (6) is made up of optical element or optical fiber are formed.
8, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling is characterized in that described pulse daley monitor controller (10) can be pulse producer and detecting element.
9, the Stark according to claim 1 optical bistability fast-switching arrangement of warbling, it is characterized in that described dielectric cavity is medium to be placed to constitute on the light path in the ring cavity or medium is placed on the light path of F-P etalon constitute, described actuating medium is atom, ion, molecule or the semiconductor material of two-level energy system.
10, according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or the 8 or 9 described Starks optical bistability fast-switching arrangement of warbling, it is characterized in that described receiving trap can be CCD diode array detector, or photodiode, or photomultiplier, or hyperchannel plate, or oscillograph, or computing machine, or operative installations.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031155928A CN1190697C (en) | 2003-02-28 | 2003-02-28 | Stark chirp optical bistable fast switch device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031155928A CN1190697C (en) | 2003-02-28 | 2003-02-28 | Stark chirp optical bistable fast switch device |
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| CN1445581A true CN1445581A (en) | 2003-10-01 |
| CN1190697C CN1190697C (en) | 2005-02-23 |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105186279A (en) * | 2015-09-30 | 2015-12-23 | 北京大学 | Laser pulse switch apparatus and control method therefor |
| CN106896618A (en) * | 2017-04-14 | 2017-06-27 | 西南大学 | A kind of polarization bistability all-optical switch and its control method |
| CN108761957A (en) * | 2018-04-13 | 2018-11-06 | 华南师范大学 | The Non-linear coupling method of the secondary cascade efficient frequency conversion of infrared band laser light source in realization |
| CN109060151A (en) * | 2018-09-05 | 2018-12-21 | 中国工程物理研究院激光聚变研究中心 | A kind of subnanosecond laser pulse contrast measuring device |
-
2003
- 2003-02-28 CN CNB031155928A patent/CN1190697C/en not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105186279A (en) * | 2015-09-30 | 2015-12-23 | 北京大学 | Laser pulse switch apparatus and control method therefor |
| CN105186279B (en) * | 2015-09-30 | 2018-02-13 | 北京大学 | A kind of laser pulse switching device and its control method |
| CN106896618A (en) * | 2017-04-14 | 2017-06-27 | 西南大学 | A kind of polarization bistability all-optical switch and its control method |
| CN108761957A (en) * | 2018-04-13 | 2018-11-06 | 华南师范大学 | The Non-linear coupling method of the secondary cascade efficient frequency conversion of infrared band laser light source in realization |
| CN108761957B (en) * | 2018-04-13 | 2021-03-16 | 华南师范大学 | Nonlinear coupling method for realizing secondary cascade efficient frequency conversion of intermediate infrared band laser light source |
| CN109060151A (en) * | 2018-09-05 | 2018-12-21 | 中国工程物理研究院激光聚变研究中心 | A kind of subnanosecond laser pulse contrast measuring device |
| CN109060151B (en) * | 2018-09-05 | 2023-08-15 | 中国工程物理研究院激光聚变研究中心 | Subnanosecond laser pulse contrast measuring device |
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| Publication number | Publication date |
|---|---|
| CN1190697C (en) | 2005-02-23 |
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