CN203574219U - Separation pulse broadening optical device based on cascaded polarization beam split - Google Patents

Abstract

The utility model discloses a separation pulse broadening optical device based on cascaded polarization beam split. The device is formed by the connection of three levels of broadening units through an optical path. The three levels of broadening units are a first level broadening unit FS/PS-10ps, a second level broadening unit 10ps-100ps and a third level broadening unit 100ps-ns, each level broadening unit is formed by a plurality of broadening sub units, the structure of the broadening sub units is based on the polarization beam splitting principle, thus the optical lengths of the laser with different polarization states are different in a space or an optical fiber, or the refractive indices introduced in a birefringent crystal are different, the precise control of delay between sub pulses is realized, through N broadening sub units, one initial pulse is finally decomposed into 2N sub pulses, and the pulse broadening with high rate is realized.

Description

Discrete pulse broadening Optical devices based on cascade polarized beam splitting

Technical field

The utility model belongs to superlaser technical field, is specifically related to a kind of high magnification polarization separation formula pulse stretching and pulse polarization coupling structure, particularly a kind of discrete pulse broadening Optical devices based on cascade polarized beam splitting.

Background technology

The laser pulse of realizing high power, peak value intensity is the important research direction of laser technology field always.In many emerging application, as accelerated laser coda wave field, X ray, gamma-rays, in electronics and photon beam generation and other relevant high field matter interactions, for laser pulse, need to meet the average power of thousands of watts of magnitudes and high single pulse energy simultaneously, for example, laser coda wave field accelerates mostly to need 10 ¹⁸w/cm ²or higher peak power density.

Although now can be in simple optical fiber, realize the continuous laser output of 10 kW average powers, but for pulse laser, due to various nonlinear effects in optical fiber, as stimulated Raman scattering, stimulated Brillouin scattering, from the existence of phase-modulation, four wave mixing etc., the energy limit that pulse duration is less than the ultrashort pulse of psec is 1 mJ left and right; The long pulse that is several nanoseconds for pulse duration, is limited to the quartzy damage threshold that waits optical material, and its peak energy denisty is difficult to surpass 50 J/cm ².

The ultrashort ultra-intense laser that a series of application demand single pulse energy is large and peak power density is high.Even the damage threshold that the pulse energy that the doubly clad optical fiber of the large mould of simple optical fiber field or photonic crystal fiber can bear or pulse peak power are limited to material, and the amplification of ultrashort pulse need be avoided the impact of nonlinear effect in optical fiber as much as possible.Can adopt a ultrashort laser pulse is divided into several (for example several thousand or several ten thousand) subpulses, improve as much as possible the repetition rate of pulse, reduce the energy of individual pulse, realize ultra-short pulse laser to the conversion of quasi-continuous lasing, so just can reduce the adverse effect of nonlinear effect relevant to pulse energy in amplification process, finally by pulse, close bundle and compression set, obtain high-energy ultrashort laser pulse.On technology is implemented, mainly face two problems: the one, how to realize powerful pulse beam splitting, a main pulse is decomposed into several thousand or several ten thousand subpulses separated in time domain; The 2nd, how to control separated lasertron pulse and after amplification, can synthesize a main pulse, require can not carry the shake of additive phase noise or subpulse time delay in pulse is synthetic, require the nonlinear phase shift of pulse in amplification process as far as possible little simultaneously.

Traditional ultra-short pulse-width expansion device, as different according to the light of different frequency composition propagation velocity in material, and the chirped pulse apparatus for widen of introducing dispersion management, adopt the space structure of grating or prism, can be by the ultra-short pulse-width expansion of femtosecond, picosecond magnitude to nanosecond order, chirp spread pulse is implemented pulse compression after amplifying.This chirped pulse amplifies and compress technique has developed extremely successfully, becomes the mainstream technology of ultrafast science and technology field.But it is high that said structure requires incident pulse spectral width, should not accurately control broadening amount, complex structure, is difficult to integratedly, and it is large that light path is aimed at difficulty; Adopt long-range single mode fiber in conjunction with all optical fibre structure ultra-short pulse-width expansion device of fiber grating, have narrow bandwidth, the shortcoming that the high-order dispersion of accumulative total cannot be compressed.The laser impulse amplification system that chirped pulse amplification is applied to all optical fibre structure faces larger difficulty, is difficult to realize the ultrashort laser pulse amplification that is greater than 1mJ.

Utility model content

The purpose of this utility model is a kind of discrete pulse broadening Optical devices based on cascade polarized beam splitting that provide in order to overcome above-mentioned the problems of the prior art and shortcoming, this device first carries out beam splitting by individual pulse by polarization state, laser pulse to different polarization states, introduce different light path or refractive index, the subpulse that makes single ultrashort pulse resolve into two polarization state differences, separate on the time.Then each subpulse after decomposing is decomposed again to the pulse that again obtains two polarization state differences, separates on the time.Every through once decomposing, a ultrashort pulse will be broken down into two, and after N time is decomposed, an initial ultrashort pulse meeting is broken down into 2 ⁿindividual subpulse, by optimizing in each decomposable process, the light path that the laser of different polarization states is introduced or the difference of refractive index, can accurately control the time delay between each subpulse, realizes the high magnification pulse time domain broadening of arbitrary interval.

The purpose of this utility model is achieved in that

A kind of discrete pulse broadening Optical devices based on cascade polarized beam splitting, feature is that this device is formed by connecting by light path by three grades of broadening unit, described three grades of broadening unit are: first order broadening unit fs/ps-10ps, second level broadening unit 10ps-100ps and third level broadening unit 100ps-ns, every grade of broadening unit forms by several broadening subelements, and what its broadening sub-unit structure was lower array structure is a kind of:

(1), a birefringece crystal and a Polarization Controller, consist of, pulse is after Polarization Controller, from the one side incident of birefringece crystal, from the another side outgoing of crystal.

(2), two blocks of onesize birefringece crystals and a Polarization Controller, consist of, pulse is after Polarization Controller, from a birefringece crystal incident, from another piece birefringece crystal outgoing;

(3), an annular mirror, a Polarization Controller, a polarization beam apparatus, a delayer and two speculums, consist of, pulse is from the input incident of annular mirror, from the output outgoing of annular mirror;

(4), a Polarization Controller, a polarization beam apparatus, a delayer and two faraday rotator mirrors, consist of, pulse is from a port incident of polarization beam apparatus, from another port outgoing of polarization beam apparatus;

(5), a Polarization Controller, two polarization beam apparatus, a delayer and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing.

(6), a Polarization Controller, two polarization beam apparatus and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(7), a Polarization Controller, two polarization beam apparatus and four speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(8), by crystal or the glass combination of a Polarization Controller, two polarization beam apparatus that are bonded together and a taper, formed, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(9), a Polarization Controller, two polarization beam apparatus that are bonded together and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing.

Described Polarization Controller is that 1/2nd wave plates are half-wave plate or stress type optical fiber polarization controller.

Described polarization beam apparatus, Polarization Controller, delayer, annular mirror, speculum or faraday rotator mirror are space structure or with all optical fibre structure of tail optical fiber.

The time delay that first order broadening of the present utility model unit is introduced different polarization states is very little, be generally 1-2 psec, corresponding space length is less than 1 millimeter, therefore adopt based on birefringent pulse stretching sub-unit structure, through the stack of three or four sub-unit structures, can realize femtosecond pulse broadening to 10ps magnitude (wherein the pulse of femtosecond magnitude, through optics, chirped pulse broadening can occur); The time delay that broadening unit, the second level is introduced different polarization states is generally tens of psecs, the conventional space structure based on polarization beam apparatus, by the accurate spatial light path difference of controlling separated latter two orthogonal polarization state pulse, realize the pulse stretching of 10ps left and right to 100ps; The time delay that third level broadening unit is introduced different polarization states is larger, conventional fiber delay time structure, and the length of control time delay optical fiber, introduces larger optical path difference, realizes the pulse stretching of 100ps to number nanosecond order.

Broadening sub-unit structure of the present utility model can constantly superpose, the optical path difference of introducing by controlling every grade of broadening unit, realize the pulse separation broadening function of any spacing, can be pulse from the separated broadening of femtosecond/psec to even quasi-continuous long pulse of tens of or hundreds of nanoseconds, be beneficial to the pulse amplification that realizes macro-energy, improve pump energy utilization ratio, thereby the peak power that reduces amplification pulse is avoided the high-peak power pulse damage possible to amplification medium, can reduce the non-linear B integration of amplification process, and suppress the noise of amplification process association simultaneously.

The utility model advantage is as follows:

(1), compare with the traditional stretcher based on grating, prism, light channel structure of the present utility model is simple, is easy to realize good stability.

, in light path of the present utility model, the incident angle of laser pulse is vertical incidence or 45 degree reflections, without accurately controlling incident angle, reduces the requirement of aiming at, and is easy to integrated.

, the broadening amount of every grade of broadening unit can accurately control by the length of time delay crystal or time delay optical fiber in broadening sub-unit structure, be convenient to regulate.

, the utility model broadening and pulse spectrum width be irrelevant, than tradition, relies on dispersion to realize the stretcher of broadening, versatility is wider, the spectrum no requirement (NR) to incident laser pulse.

, the pulse stretching of separate type, reduced the energy of individual pulse, avoid the device damage causing because pulse energy is excessive in high power amplification process.

(6), according to different polarization states, there is different light paths, realize pulse stretching, compare with traditional stretcher based on dispersion, introduce hardly the nonlinear effects such as high-order dispersion, be conducive to subsequent compression and realize ultrashort pulse.

(7) the pulse, after broadening has stable polarization state, in the Polarization-Sensitive application such as frequency multiplication, can obtain stable conversion efficiency.

(8), at the output of broadening sub-unit structure, add faraday rotator mirror, the light beam of reverse transfer, through sub-unit structure, can be realized the bundle that closes of polarization separation pulse, and this cellular construction is realized the bundle that closes of pulse separation broadening and discrete pulse simultaneously.

, by stack broadening sub-unit structure, accurately control broadening amount, can be by ultra-short pulse-width expansion to nanosecond order, broadening multiplying power is high.

(10), the utility model is to incident light spectrum no requirement (NR), do not affect the spectral distribution of laser pulse in broadening process, broadening and compression in the time of can be for multiband pulse.

, the utility model is simple, device used is conventional device, is convenient to the amplification of integrated and macro-energy, is applicable to obtaining the Laser output of the wave bands such as high stability, high-power green glow, ultraviolet.

Accompanying drawing explanation

Fig. 1 is high magnification polarization separation formula broadening structural representation;

Fig. 2 is uniformly-spaced high magnification polarization separation formula pulse stretching structure chart of embodiment 1;

Fig. 3 is embodiment 2 arbitrary interval high magnification polarization separation formula pulse stretching structure chart;

Fig. 4-9 are the broadening structure based on birefringece crystal, are applicable to the pulse stretching (wherein the pulse of femtosecond magnitude, through optics, chirped pulse broadening can occur) of first order broadening unit (fs/ps-10ps), are specially:

Fig. 4 is based on birefringece crystal polarization broadening sub-unit structure figure;

Fig. 5 is that two-stage is based on birefringece crystal polarization broadening structure chart;

Fig. 6 is multistage based on birefringece crystal polarization broadening structure chart;

Fig. 7 is the another kind of sub-unit structure figure based on birefringece crystal polarization broadening;

Fig. 8 is the another kind of structure chart of two-stage based on birefringece crystal polarization broadening;

Fig. 9 is the multistage another kind of structure chart based on birefringece crystal polarization broadening;

Figure 10-19 are space stretching structure, can realize the separated broadening of powerful polarized pulses to time delay fine adjustment, are applicable to the pulse stretching of the second level (10ps-100ps) or third level broadening unit (100ps-ns), are specially:

Figure 10 is a kind of broadening sub-unit structure figure of single polarization beam apparatus;

Figure 11 is the another kind of broadening sub-unit structure figure of single polarization beam apparatus;

Figure 12 is a kind of broadening sub-unit structure figure with fiber delay time device;

Figure 13 is the broadening structure chart of the single polarization beam apparatus of two-stage;

Figure 14 is the broadening structure chart of multistage single polarization beam apparatus;

Figure 15 is the broadening sub-unit structure figure with two separated polarization beam apparatus of time delay crystal;

Figure 16 is a kind of structure chart of the broadening subelement of two separated polarization beam apparatus;

Figure 17 is a kind of structure chart of bonded type polarization beam apparatus broadening subelement;

Figure 18 is the another kind of structure chart of bonded type polarization beam apparatus broadening subelement;

Figure 19 is a kind of broadening sub-unit structure figure of full optical fiber list polarization beam apparatus;

Figure 20-25 are full optical fiber broadening structure, are applicable to the pulse stretching of third level broadening unit (100ps-ns), are specially:

Figure 20 is the broadening sub-unit structure figure of the single polarization beam apparatus of all optical fibre structure;

Figure 21 is the broadening structure chart of the single polarization beam apparatus of the fine structure of two-stage all-optical;

Figure 22 is the broadening structure chart of the single polarization beam apparatus of multistage all optical fibre structure;

Figure 23 is the broadening structure chart of multistage bonded type polarization beam apparatus;

Figure 24 is a kind of broadening sub-unit structure figure of two polarization beam apparatus of full optical fiber;

Figure 25 is multistage full optical fiber broadening structure chart.

Embodiment

By reference to the accompanying drawings the utility model is conducted further description, but be not limited only to following examples.

Consult Fig. 1, the utility model adopts three grades of broadenings to realize the pulse stretching of fs/ps to number nanosecond order, described three grades of broadening unit are: first order broadening unit (fs/ps-10ps), broadening unit, the second level (10ps-100ps) and third level broadening unit (100ps-ns).Wherein, the time delay that first order broadening unit is introduced different polarization states is very little, be generally 1-2ps, corresponding space length is less than 1 millimeter, therefore adopt based on birefringent pulse stretching sub-unit structure, through the stack of three or four broadening sub-unit structures, realize femtosecond pulse broadening to 10ps magnitude (wherein the pulse of femtosecond magnitude, through optics, chirped pulse broadening can occur); The time delay that broadening unit, the second level is introduced different polarization states is generally tens of psecs, the conventional space structure based on polarization beam apparatus, by the accurate spatial light path difference of controlling separated latter two orthogonal polarization state pulse, realize the pulse stretching of 10ps left and right to 100ps; The time delay that third level broadening unit is introduced different polarization states is larger, conventional fiber delay time structure, and the length of control time delay optical fiber, introduces larger optical path difference, realizes the pulse stretching of 100ps even longer to number nanosecond order.

Embodiment 1

Consult Fig. 2, this figure is high magnification polarization separation formula pulse stretching structure chart uniformly-spaced, comprises three grades of broadenings, and every grade of broadening consists of the broadening subelement of four cascades.Device used comprises birefringece crystal 13, half-wave plate 11, and speculum 4, space polarization beam apparatus 1, time delay optical fiber 7, with the faraday rotator mirror 10 of tail optical fiber.Initial incident pulse is through a broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two broadening subelements, make pulse polarization direction rotation 45 degree of first broadening subelement output, incide again second broadening subelement, or by crystal space orientation angles, arrangement realizes the Polarization Control of laser pulse, before and after making, adjacent birefringece crystal or the polarization beam apparatus of level be take the laser pulse direction of propagation as rotating shaft, axially angle be 45 degree (in this case, half-wave plate 11 can omit need not).Simultaneously, the quantity of second broadening subelement birefringece crystal is the twice of first broadening birefringece crystal quantity, according to as graph structure, the incident pulse polarization direction of each broadening subelement is with respect to previous outgoing pulse, 45 degree have all been rotated, or between the plane of incidence of the adjacent polarization beam apparatus of front and back level, angle is 45 degree (in this case, half-wave plate 11 can omit need not).The quantity of each broadening subelement birefringece crystal is the twice of previous broadening subelement birefringece crystal quantity, through four broadening subelements of the first order, realizes an inceptive impulse and is separated into 16 subpulses.Choose reasonable crystal length, the amount of delay that every two crystal are introduced is 1ps, after first order broadening, during pulse, length of field is 16ps.

Afterwards by the pulse after separation through four of the second level broadening based on polarization beam apparatus, before each broadening subelement, all there is Polarization Controller to regulate the polarization direction of incident pulse, two pulses of assurance after polarization beam apparatus 1 all have identical intensity, the spatial light path difference that each broadening subelement is introduced is 2 times of previous broadening unit light path difference, four broadening subelements through cascade, at output, realizing is 256 subpulses by 16 pulse separation of incident, for example, time delay distance that can each broadening subelement of fine adjustment, make first broadening subelement introduce the time delay of 16ps, finally when the pulse of output, length of field is 256ps.

Again the pulse of second level pulse stretching output is incided in the broadening of four third level based on fiber delay time cell formation, in each broadening subelement, the length of time delay optical fiber is 2 times of previous broadening subelement time delay optical fiber, the length of time delay optical fiber in each broadening subelement of fine adjustment, make first broadening subelement introduce the time delay of 256ps, finally at output, 256 inceptive impulses are broken down into 4096 subpulses, between each subpulse, interval is identical, for example can be set as interval 1ps, time domain width is 4.096ns altogether, this realized the equally spaced pulse separation formula of high magnification broadening.

Embodiment 2

Consult Fig. 3, this figure is arbitrary interval high magnification polarization separation formula pulse stretching structure chart, comprises three grades of broadenings, and every grade of broadening consists of the broadening subelement of four cascades.Device used comprises birefringece crystal 13, half-wave plate 11, and speculum 4, space polarization beam apparatus 1, time delay optical fiber 7, with the faraday rotator mirror 10 of tail optical fiber.Initial incident pulse is through first broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two-stage broadening subelement, make pulse polarization direction rotation 45 degree of first broadening subelement output, incide again second broadening subelement, according to as graph structure, the incident pulse polarization direction of each broadening subelement is with respect to previous outgoing pulse, 45 degree have all been rotated, or by the arrangement of special space orientation angles, realize the Polarization Control of laser pulse, before and after making, adjacent birefringece crystal or the polarization beam apparatus of level be take the laser pulse direction of propagation as rotating shaft, axially angle be 45 degree (in this case, half-wave plate 11 can omit need not).Afterwards by the pulse after separation through four of the second level broadening based on polarization beam apparatus, before each broadening subelement, all there is Polarization Controller to regulate the polarization direction of incident pulse, two pulses of assurance after polarization beam apparatus 1 all have identical intensity, the spatial light path difference that each broadening subelement is introduced is any, four broadening unit through cascade, again the pulse of second level pulse stretching output is incided in the broadening of four third level based on fiber delay time cell formation, finally, at output, an inceptive impulse is broken down into 4096 subpulses.The time delay of introducing due to every grade of broadening can be by regulating the length of birefringece crystal, and the length of space optical path length or time delay optical fiber is freely controlled, and therefore, can realize the high magnification pulse separation formula broadening of arbitrary interval.

Fig. 4-9 are the broadening structure based on birefringece crystal, are applicable to the pulse stretching of the first order (fs/ps-10ps), and the method broadening that realization is passed through polarization separation by the ultrashort pulse of femtosecond, picosecond magnitude is to 10ps magnitude.For the time delay that is less than 1ps, corresponding spatial light path difference, less than one millimeter, adopts the broadening structure based on space time delay or fiber delay time, cannot accurately control length.And in birefringece crystal, the refractive index difference of the two-beam that polarization is perpendicular to one another is less, and the length of birefringece crystal is also subject to the restriction of crystal processing, is generally less than 50mm, cannot introduce the time delay that is greater than 50ps.Introduce respectively the concrete structure of accompanying drawing 4-9 below:

Fig. 4 is birefringece crystal polarization broadening sub-unit structure figure, comprises birefringece crystal 13, half-wave plate 11.Inceptive impulse is after half-wave plate 11, incide on birefringece crystal 13, be broken down into the extraordinary ray that the constant ordinary light in the direction of propagation and the direction of propagation change, effect due to birefringence effect, ordinary light has with extraordinary ray the polarization state being perpendicular to one another, and the refractive index of two-beam in crystal is also different, so the propagation velocity of two-beam is also different.By selecting different birefringece crystals, the angle of the appropriate design optical axis of crystal and incident direction and crystal length, can control the optical path difference of ordinary light and extraordinary ray is accurate, realizes an incident pulse and be separated into the subpulse that two polarizations are perpendicular to one another.Due to birefringence effect, ordinary light is different from the direction of propagation of extraordinary ray, on space, separate, after first block of birefringece crystal, place again the identical birefringece crystal of a block size, the optical axis of its optical axis direction and first block of birefringece crystal is symmetrical about the common sides of two crystal, can realize the ordinary light compensation separated with extraordinary ray space, two-beam is spatially pooled a branch of.Regulate the relative intensity of 11, two subpulses of half-wave plate to change thereupon.

Fig. 5 is two birefringece crystal polarization broadening structure charts, comprises birefringece crystal 13, half-wave plate 11.Initial incident pulse is through first broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two broadening subelements, make pulse polarization direction rotation 45 degree of first broadening subelement output, or by the arrangement of special space orientation angles, realize the Polarization Control of laser pulse, before and after making, the adjacent birefringece crystal of level be take the laser pulse direction of propagation as rotating shaft, axially angle be 45 degree (in this case, half-wave plate 11 can omit need not), incide again second broadening subelement, simultaneously, the quantity of second broadening subelement birefringece crystal is the twice of first broadening subelement birefringece crystal quantity, according to as graph structure, can realize a pulse separation is four subpulses, the amplitude of each pulse is 1/4th of inceptive impulse.

Fig. 6 is a plurality of birefringece crystal polarization broadening structure charts, comprises birefringece crystal 13, half-wave plate 11, speculum 4.Initial incident pulse is through first broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two broadening subelements, make pulse polarization direction rotation 45 degree of first broadening subelement output, or by the arrangement of special space orientation angles, realize the Polarization Control of laser pulse, before and after making, the adjacent birefringece crystal of level be take the laser pulse direction of propagation as rotating shaft, axially angle be 45 degree (in this case, half-wave plate 11 can omit need not), incide again second broadening subelement, simultaneously, the quantity of second broadening subelement birefringece crystal is the twice of first broadening subelement birefringece crystal quantity, according to as graph structure, the incident pulse polarization direction of each broadening subelement is with respect to previous outgoing pulse, 45 degree have all been rotated, the quantity of each broadening subelement birefringece crystal is the twice of previous broadening subelement birefringece crystal quantity, through N broadening subelement, realize an inceptive impulse and be separated into 2 ⁿindividual subpulse.The effect of speculum 4 is light path layout for a change only.

Fig. 7 is the another kind of sub-unit structure figure of birefringece crystal polarization broadening, comprises birefringece crystal 13, half-wave plate 11.Inceptive impulse is after half-wave plate 11, incide on birefringece crystal 13, angle between appropriate design incident direction and optical axis, ordinary light after assurance is broken down into extraordinary ray the direction of propagation in crystal consistent, effect due to birefringence effect, ordinary light has with extraordinary ray the polarization state being perpendicular to one another, so the propagation velocity of two-beam is also different.By selecting different birefringece crystals, appropriate design crystal length, can control the optical path difference of ordinary light and extraordinary ray is accurate, realizes an incident pulse and is separated into the subpulse that two polarizations are perpendicular to one another.Regulate the relative intensity of 11, two subpulses of half-wave plate to change thereupon.

Fig. 8 is the another kind of structure chart of two birefringece crystal polarization broadenings, comprises birefringece crystal 13, half-wave plate 11.Initial incident pulse is through first broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two broadening subelements, make pulse polarization direction rotation 45 degree of first broadening subelement output, or between the plane of incidence of the adjacent birefringece crystal in front and back angle be 45 degree (in this case, half-wave plate 11 can omit need not), incide again second broadening subelement, simultaneously, the quantity of second broadening subelement birefringece crystal is the twice of first broadening subelement birefringece crystal quantity, according to as graph structure, can realize a pulse separation is four subpulses, the amplitude of each pulse is 1/4th of inceptive impulse.

Fig. 9 is the another kind of structure chart of a plurality of birefringece crystal polarization broadenings, comprises birefringece crystal 13, half-wave plate 11, transmitting mirror 4.Initial incident pulse is through first broadening subelement, being broken down into polarization direction is perpendicular to one another, two subpulses that amplitude is consistent, pass through again next broadening subelement, regulate the half-wave plate between two broadening subelements, make pulse polarization direction rotation 45 degree of first broadening subelement output, or between the plane of incidence of the adjacent birefringece crystal in front and back angle be 45 degree (in this case, half-wave plate 11 can omit need not), incide again second broadening subelement, simultaneously, the quantity of second broadening subelement birefringece crystal is the twice of first broadening subelement birefringece crystal quantity, according to as graph structure, the incident pulse polarization direction of each broadening subelement is with respect to previous outgoing pulse, 45 degree have all been rotated, the quantity of each broadening subelement birefringece crystal is the twice of previous broadening subelement birefringece crystal quantity, through N level broadening subelement, realize an inceptive impulse and be separated into 2 ⁿindividual subpulse.The effect of speculum 4 is light path layout for a change only.

Figure 10-19 be space stretching structure, can bear higher power, be applicable to the pulse stretching of the second level (10ps-100ps) or the third level (100ps-ns) to unit, the method broadening that realization is passed through polarization separation by the ultrashort pulse of picosecond magnitude arrives even nanosecond order of hundreds of psecs.Adopt the meticulous control broadening amount of broadening subelement energy of space structure, introduce respectively the concrete structure of Figure 10-19 below:

A kind of broadening sub-unit structure figure of the single polarization beam apparatus shown in Figure 10, comprises the polarization beam apparatus 1 of space structure, the circulator 2 of space structure, time delay crystal or glass 3, speculum 4, half-wave plate 11.Pulse is from the input port incident of circulator 2, transmission port outgoing from circulator 2, through half-wave plate 11, reenter and be mapped on polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly through speculum 4 reflections, another road pulse is first after time delay crystal or glass 3, again through speculum reflection, after reflection, again by time delay crystal or glass 3, after two-way pulse is reflected, along incident direction, again on polarization beam apparatus 1, pool light beam, through half-wave plate 11, transmission port incident from circulator 2, final the 3rd the port outgoing from circulator 2.Separated on two-way pulse interval after polarization beam apparatus 1, the light path of walking is different, by regulating the length of space optical path length or time delay crystal or glass 3, can accurately control the optical path difference of two-way pulse, while oppositely inciding polarization beam apparatus 1 through speculum again, on two-way pulse interval, overlapping, is two subpulses by the size separation of optical path difference on the time, the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 11 is the another kind of broadening sub-unit structure figure of single polarization beam apparatus, comprises the polarization beam apparatus 1 of space structure, time delay crystal or glass 3, faraday rotator mirror 9, half-wave plate 11.Pulse is through half-wave plate 11, incide on polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly through faraday rotator mirror 9 reflections, another road pulse is first after time delay crystal or glass 3, again through faraday rotator mirror 9 reflections, after reflection, again by time delay crystal or glass 3, after two-way pulse is reflected, along incident direction, again on polarization beam apparatus 1, pool light beam, due to the polarization direction of every road pulse, compare during with initial incident, 90 degree have all been rotated, therefore the laser pulse after converging is from the another port output of Polarization Controller.On two-way pulse interval, overlapping, is two subpulses by the size separation of optical path difference on the time, and the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 12 is a kind of broadening sub-unit structure figure with fiber delay time device, comprises the polarization beam apparatus 1 of space structure, and time delay optical fiber 7, with the faraday rotator mirror 10 of tail optical fiber, half-wave plate 11, optical fiber collimator 14.Pulse is through half-wave plate 11, incide on polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is through optical fiber collimator 14, be coupled to optical fiber, directly through faraday rotator mirror 10 reflections with tail optical fiber, another road pulse is by optical fiber collimator 14, first be coupled into after time delay optical fiber 7, again through faraday rotator mirror 10 reflections with tail optical fiber, after reflection, again by time delay optical fiber 7, after two-way pulse is reflected, along incident direction, again on polarization beam apparatus 1, pool light beam, due to the polarization direction of every road pulse, compare during with initial incident, 90 degree have all been rotated, therefore the laser pulse after converging is from the another port output of Polarization Controller.On two-way pulse interval, overlapping, is two subpulses by the size separation of optical path difference on the time, and the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 13 is the broadening structure chart of two single polarization beam apparatus, initial incident pulse is through a broadening, be separated into two subpulses, by controlling the length of second time delay glass or crystal, make the twice that second optical path difference that different polarization states is introduced is first, can realize an inceptive impulse is the broadening of four subpulses according to polarization separation.

Figure 14 is the broadening structure chart of a plurality of single polarization beam apparatus, initial incident pulse is through a broadening, be separated into two subpulses, by controlling the length of second time delay glass or crystal, make the twice that second optical path difference that different polarization states is introduced is first, can realize an inceptive impulse is two according to polarization separation, then is separated into the broadening of four subpulses.The optical path difference that follow-up each broadening unit is introduced different polarization states is previous twice, and by the stack of N broadening unit, can realize a pulse stretching is 2 ⁿindividual subpulse.

Figure 15 is the broadening sub-unit structure figure with two separated polarization beam apparatus of time delay crystal, comprises the polarization beam apparatus 1 of two space structures, 3, two speculums 4 of time delay glass or crystal, half-wave plate 11.Pulse is through half-wave plate 11, incide on polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly through 4 reflections of a speculum, another road pulse is first after time delay crystal or glass 3, again through another speculum 4 reflections, after two-way pulse is reflected, on another piece polarization beam apparatus 1, pool light beam, on two-way pulse interval, overlap, on time, by the size separation of optical path difference, be two subpulses, the amplitude of subpulse is identical, be half of inceptive impulse.

Figure 16 is a kind of structure chart of the broadening subelement of two separated polarization beam apparatus, comprises 4, one half-wave plates 11 of 1, four speculum of polarization beam apparatus of two space structures.Pulse is through half-wave plate 11, incide on polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly through 4 reflections of a speculum, another road pulse is through two speculums 4, introduce longer light path, again through 4 reflections of a speculum, after two-way pulse is reflected, on another piece polarization beam apparatus 1, pool light beam, on two-way pulse interval, overlap, on time, by the size separation of optical path difference, be two subpulses, the amplitude of subpulse is identical, be half of inceptive impulse.

Figure 17 is a kind of structure chart of bonded type polarization beam apparatus broadening subelement, comprises the two block space polarization beam apparatus 1 that are bonded together, and is bonded in the degree of 45 on two polarization beam apparatus cone angle glass prism and adjusts light path, a half-wave plate 11.Regulate half-wave plate 11, make the subpulse intensity of separated latter two polarization state consistent, schematic structure can make again to converge on next polarization beam apparatus by the two-way subpulse after polarization separation, by regulating the length of longitudinal glass, can regulate the interval of subpulse after two-way separation.

Figure 18 is the another kind of structure chart of bonded type polarization beam apparatus broadening subelement, comprises 4, one half-wave plates 11 of 1, two speculum of two block space polarization beam apparatus that are bonded together.Pulse is through half-wave plate 11, incide on a polarization beam apparatus 1, regulate half-wave plate 11, make the pulse that is incident on polarization beam apparatus 1 be all divided into the mutually perpendicular subpulse of two bundle polarizations, another polarization beam apparatus is directly passed through in one tunnel pulse, another road pulse, through two speculums 4, is introduced certain light path, then reflexes on another piece polarization beam apparatus.Two-way pulse is converged on second polarization beam apparatus, on space, overlaps each other, and on the time, by the size separation of optical path difference, be two subpulses, the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 19 is the broadening structure chart of multistage bonded type polarization beam apparatus, structure shown in Figure 18 is constantly superposeed, regulate the half-wave plate before each cellular construction, or by the arrangement of special space orientation angles, realize the Polarization Control of laser pulse, before and after making, the adjacent polarization beam apparatus of level be take the laser pulse direction of propagation as rotating shaft, axially angle is 45 degree, guarantee that the direction that the incident light of every grade all can be perpendicular to one another according to polarization state is separated into two subpulses that amplitude is consistent, through N broadening cellular construction, can realize a pulse stretching is 2 ⁿindividual subpulse.

Figure 20-25 be full optical fiber broadening structure, be applicable to the pulse stretching unit of the third level (100ps-ns), realization is passed through polarization separation broadening to nanosecond order by the ultrashort pulse of picosecond magnitude, the broadening subelement of employing time delay optical fiber is applicable to the pulse stretching of larger time delay, introduces respectively the concrete structure of accompanying drawing 20-25 below:

Figure 20 is a kind of broadening sub-unit structure figure of full optical fiber list polarization beam apparatus, 6 circulators that are optical fiber structure, and 12 is manual or electronic Polarization Controller, 5 polarization beam apparatus that are optical fiber structure, 7 is time delay optical fiber, 8 is the speculum with tail optical fiber.Pulse is from the input port incident of circulator 6, transmission port outgoing from circulator 6, through Polarization Controller 12, reenter and be mapped on polarization beam apparatus 5, regulate Polarization Controller 12, make the pulse that is incident on polarization beam apparatus 5 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly through speculum 8 reflections, another road pulse is first after time delay optical fiber 8, again through speculum reflection, after reflection, again by time delay optical fiber 7, after two-way pulse is reflected, along incident direction, again on polarization beam apparatus 5, pool light beam, through Polarization Controller 12, transmission port incident from circulator 6, final the 3rd the port outgoing from circulator 6.Separated on two-way pulse interval after polarization beam apparatus 5, the light path of walking is different, by regulating the length of time delay optical fiber 7, can accurately control the optical path difference of two-way pulse, while oppositely inciding polarization beam apparatus 5 through speculum again, on two-way pulse interval, overlapping, is two subpulses by the size separation of optical path difference on the time, the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 21 is the broadening sub-unit structure figure of the single polarization beam apparatus of all optical fibre structure, comprises four port polarization beam splitters 5 of optical fiber structure, and time delay optical fiber 7, with the faraday rotator mirror 10 of tail optical fiber, Polarization Controller 12.Pulse is through Polarization Controller 12, incide on polarization beam apparatus 5, regulate Polarization Controller 12, make the pulse that is incident on polarization beam apparatus 5 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly reflected by faraday rotator mirror 10, another road pulse is first after time delay optical fiber 7, again through faraday rotator mirror 10 reflections with tail optical fiber, after reflection, again by time delay optical fiber 7, after two-way pulse is reflected, along incident direction, again on polarization beam apparatus 5, pool light beam, due to the polarization direction of every road pulse, compare during with initial incident, 90 degree have all been rotated, therefore the laser pulse after converging is from the another port output of Polarization Controller.On two-way pulse interval, overlapping, is two subpulses by the size separation of optical path difference on the time, and the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 22 is the broadening structure chart of two single polarization beam apparatus of all optical fibre structure, initial incident pulse is through a broadening, be separated into two subpulses, by controlling the length of second time delay optical fiber, make the twice that second optical path difference that different polarization states is introduced is first, can realize an inceptive impulse is the broadening of four subpulses according to polarization separation.

Figure 23 is the broadening structure chart of the single polarization beam apparatus of a plurality of all optical fibre structures, initial incident pulse is through a broadening, be separated into two subpulses, by controlling the length of second time delay optical fiber, make the twice that second optical path difference that different polarization states is introduced is first, can realize an inceptive impulse is two according to polarization separation, then is separated into the broadening of four subpulses.The optical path difference that follow-up each broadening unit is introduced different polarization states is previous twice, and by the stack of N broadening unit, can realize a pulse stretching is 2 ⁿindividual subpulse.

Figure 24 is a kind of broadening sub-unit structure figure of two polarization beam apparatus of full optical fiber, comprises the polarization beam apparatus 5 of two optical fiber structures, time delay optical fiber 7, Polarization Controller 12.Pulse is through Polarization Controller 12, incide on polarization beam apparatus 5, regulate Polarization Controller 12, make the pulse that is incident on polarization beam apparatus 5 be all divided into the mutually perpendicular subpulse of two bundle polarizations, one tunnel pulse is directly incident on another polarization beam apparatus 5, another road pulse is first after time delay optical fiber 7, incide again another polarization beam apparatus 5, two-way pulse pools light beam, on two-way pulse interval, overlap, on time, by the size separation of optical path difference, be two subpulses, the amplitude of subpulse is identical, is half of inceptive impulse.

Figure 25 is a plurality of full optical fiber broadening structure charts, initial incident pulse is through a broadening, be separated into two subpulses, by controlling the length of second time delay optical fiber, make the twice that second optical path difference that different polarization states is introduced is first, can realize an inceptive impulse is two according to polarization separation, then is separated into the broadening of four subpulses.The optical path difference that follow-up each broadening unit is introduced different polarization states is previous twice, and by the stack of N broadening unit, can realize a pulse stretching is 2 ⁿindividual subpulse.

Claims (3)

1. discrete pulse broadening Optical devices based on cascade polarized beam splitting, it is characterized in that this device is formed by connecting by light path by three grades of broadening unit, described three grades of broadening unit are: first order broadening unit fs/ps-10ps, second level broadening unit 10ps-100ps and third level broadening unit 100ps-ns, every grade of broadening unit forms by several broadening subelements, and what its broadening sub-unit structure was lower array structure is a kind of:

(1), a birefringece crystal and a Polarization Controller, consist of, pulse is after Polarization Controller, from the one side incident of birefringece crystal, from the another side outgoing of crystal;

(2), two blocks of onesize birefringece crystals and a Polarization Controller, consist of, pulse is after Polarization Controller, from a birefringece crystal incident, from another piece birefringece crystal outgoing;

(3), an annular mirror, a Polarization Controller, a polarization beam apparatus, a delayer and two speculums, consist of, pulse is from the input incident of annular mirror, from the output outgoing of annular mirror;

(4), a Polarization Controller, a polarization beam apparatus, a delayer and two faraday rotator mirrors, consist of, pulse is from a port incident of polarization beam apparatus, from another port outgoing of polarization beam apparatus;

(5), a Polarization Controller, two polarization beam apparatus, a delayer and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(6), a Polarization Controller, two polarization beam apparatus and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(7), a Polarization Controller, two polarization beam apparatus and four speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(8), by crystal or the glass combination of a Polarization Controller, two polarization beam apparatus that are bonded together and a taper, formed, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing;

(9), a Polarization Controller, two polarization beam apparatus that are bonded together and two speculums, consist of, pulse is from a polarization beam apparatus incident, from another polarization beam apparatus outgoing.

2. device according to claim 1, is characterized in that described Polarization Controller is that 1/2nd wave plates are half-wave plate or stress type optical fiber polarization controller.

3. device according to claim 1, is characterized in that described polarization beam apparatus, Polarization Controller, delayer, annular mirror, speculum or faraday rotator mirror are space structure or with all optical fibre structure of tail optical fiber.

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