CN203838413U - Anastigmatic light beam shaping system based on prisms and cylindrical mirror - Google Patents
Anastigmatic light beam shaping system based on prisms and cylindrical mirror Download PDFInfo
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- CN203838413U CN203838413U CN201420094932.2U CN201420094932U CN203838413U CN 203838413 U CN203838413 U CN 203838413U CN 201420094932 U CN201420094932 U CN 201420094932U CN 203838413 U CN203838413 U CN 203838413U
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- prism
- cylindrical mirror
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- orthopedic systems
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Abstract
The utility model discloses an anastigmatic light beam shaping system based on prisms and a cylindrical mirror, comprising a collimating lens, a pair of prisms, a light beam displacement block and a cylindrical mirror successively arranged on a same optical path. The anastigmatic light beam shaping system realizes light beam shaping; light spots obtained in fast and slow axis directions are converged by a converging lens to get a dimensional proportion larger than 1:5; meanwhile astigmatism possessed by light beams and generated by the prisms is eliminated; the anastigmatic light beam shaping system can obtain light beams with high quality after shaping and raise a signal to noise ratio of an instrument, and is easy to adjust in installation and manufacture.
Description
Technical field
The utility model belongs to semiconductor laser device beam shaping technical field, relate in particular to a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror.
Background technology
Light source and optical system thereof are the cores of flow cytometer, and the quality of light source has directly determined the performance index of instrument.Laser can provide the illumination that single wavelength, high strength and stability are high, is the perfect light source of the faint fluorescence express-analysis of cell.General selected by flow cytometry apoptosis speed is greater than 5000/second, unaffected to ensure to be sorted the biologic activity of cell.Due to the rapid flow of cell, each cell is only a microsecond left and right through the time of area of illumination, and the fluorescence signal power that the entrained fluorescent material of each cell is inspired, with the irradiated time with excite light intensity relevant, therefore, must ensure that cell reaches enough intensities of illumination.Laser beam, arriving before flow chamber, is first focused on through lens, forms the Elliptic gaussian beam that physical dimension is about 15 × 75 μ m.
For ensureing the resolution (conventionally representing by coefficient of variation CV value) of flow cytometer, must ensure that cells in sample is to be subject to respectively one by one illumination, and intensity of illumination is consistent.Because LASER Light Source is Gaussian distribution, requiring the light spot shape being irradiated on cell is uniform Gaussian beam, and is just positioned at the vertex position of Gaussian beam.The optimal way that meets this condition is will after the fast axle of laser, slow axis line focus lens, just to focus on cell centre respectively, to ensure the homogeneity of illumination energy and illumination, and ensure that Laser beam energy distribution peak value is positioned at cell centre, and beam shape is desirable Gaussian distribution.
For laser diode, the angle of divergence of its fast axle and slow axis normally 2: 1, need to could be 5: 1 by hot spot integer through the optical system of complicated high magnification.At home and abroad in large-scale flow cytometer, conventionally adopt prism to or the mode of cylindrical lens realize, and for reaching the Elliptical Ratio of 5: 1, conventionally fast axial light spot is focused on to fluidic cell tube hub, and slow axis focus is positioned at fluidic cell pipe rear, be that slow axis is applied in out-of-focus appearance, fast axle is different from the focal position of slow axis.The drawback of the method be slow axis in out-of-focus appearance, the homogeneity of its Gaussian beam can not ensure, once and beam-pointing there is skew, certainly will cause the light intensity on irradiating cell to be undergone mutation.Therefore, while there is very little variation when the directive property of laser instrument is changed by external environment, the CV signal of system must decline, and affects the performance of instrument.
Utility model content
In view of the defect of above-mentioned prior art existence, the purpose of this utility model be propose a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, overcome in existing drain cell instrument slow-axis direction and cannot use in focal plane and cause the inhomogeneous series of problems causing of Gaussian beam.
The purpose of this utility model will be achieved by the following technical programs:
A kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, be included in the collimation lens that sets gradually in same light path, prism to, pattern displacement piece and cylindrical mirror, described cylindrical mirror is eliminated the astigmatism producing by the astigmatism of light beam itself with by described prism simultaneously; When described prism is when compressing hot spot, described cylindrical mirror has positive focal power, and when described prism is when expanding hot spot, described cylindrical mirror has negative focal power.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: described collimation lens has positive focal power, effective focal length is 2mm-5mm.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: described collimation lens and described prism between be provided with telescopic system.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: described telescopic system comprises negative lens and positive lens.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: described telescopic system to input the described collimation lens of process collimate the fast axle of elliptical beam obtaining, the hot spot of slow axis both direction expands or the bundle that contracts simultaneously, make the hot spot collimation output of quick shaft direction, the spot size of described quick shaft direction is at 4mm-7mm; Described prism, to the hot spot of slow-axis direction being expanded or the bundle that contracts, makes the spot size of slow-axis direction at 0.8mm-2mm, makes the hot spot of slow-axis direction along the output of optical axis direction collimation.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: described pattern displacement piece is cube.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: the logical light face of described pattern displacement piece is polishing bright, its lap is hair side.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: the not plated film of front surface of the logical light face of described pattern displacement piece, rear surface is coated with anti-reflection film.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: the logical light face of described pattern displacement piece becomes miter angle with optical axis, described front surface reflection part light, for signal feedback, makes luminous energy export with firm power.
Preferably, above-mentioned a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, wherein: after described cylindrical mirror, also comprise that plus lens, described plus lens are the cemented doublet with positive light coke.
Outstanding effect of the present utility model is: of the present utility model a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, both realized beam shaping, the dimension scale of the hot spot of fast, the slow-axis direction obtaining after plus lens converges is greater than 1: 5, by the astigmatism of light beam itself with by prism, the astigmatism producing is eliminated simultaneously, after having shaping, beam quality is high, the signal to noise ratio (S/N ratio) that improves instrument, is easy to the advantages such as adjusting when installing simultaneously, making.
Below just accompanying drawing in conjunction with the embodiments, is described in further detail embodiment of the present utility model, so that technical solutions of the utility model are easier to understand, grasp.
Brief description of the drawings
Fig. 1 is the optical system configuration composition of the utility model embodiment;
Fig. 2 is the spot size distribution plan after telescopic system of the utility model embodiment;
Fig. 3 be the utility model embodiment through prism to after spot size distribution plan;
Fig. 4 is the spot size distribution plan after plus lens of the utility model embodiment;
Fig. 5 be the utility model embodiment have or not cylinder offset lens time slow-axis direction spot size distribution plan;
Fig. 6 be the utility model embodiment without cylinder offset lens time slow-axis direction light spot shape figure;
Fig. 7 be the utility model embodiment have cylinder offset lens time slow-axis direction light spot shape figure;
Fig. 8 is the spot size distribution plan that has cylinder offset lens to disappear after astigmatism of the utility model embodiment.
Embodiment
Embodiment:
The present embodiment a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, as shown in Figure 1, be included in the collimation lens 1 that sets gradually in same light path, telescopic system, prism to 4, pattern displacement piece 5, cylindrical mirror 6 and plus lens 7.Wherein, collimation lens 1 has positive focal power, and effective focal length is 2mm-5mm.Light beam is after collimation lens 1 collimation, be about again the telescopic system of 2 times of left and right through enlargement ratio, telescopic system comprises the negative lens 2 with negative power and the positive lens 3 with positive light coke, and both focal powers ratio is about 1: 2, the spot size that obtains slow-axis direction with this is about 1.9mm, the spot size of quick shaft direction is about the collimated light of 5.2mm, and spot size distributes as shown in Figure 2.The collimated light expanding through telescopic system again through the prism that is arranged on horizontal direction to after 4, the hot spot of slow-axis direction is compressed to 0.9mm left and right, and makes light path occur in the horizontal direction translation, this translational movement is compensated by pattern displacement piece 5.Pattern displacement piece 5 is cube, and its thickness is determined by the right scaling of prism.The logical light face of pattern displacement piece 5 is polishing bright, its lap is hair side.The not plated film of front surface of the logical light face of pattern displacement piece 5, rear surface is coated with anti-reflection film.The logical light face of pattern displacement piece 5 becomes miter angle with optical axis, and front surface reflection part light, for signal feedback, makes luminous energy export with firm power.Plus lens 7 is for having the cemented doublet of positive light coke.
Light beam is through prism to after 4, and the beam divergence angle of slow-axis direction and quick shaft direction is respectively: 1.02mrad and 0.08mrad, as shown in Figure 3.Because the fast axle of light beam and the angle of divergence of slow axis are not both the basic reason that causes light beam astigmatism, and cause light beam light distribution meeting in communication process to change.Therefore, the light with the different angles of divergence after plus lens 7, can produce the astigmatism of 3.5mm left and right, as shown in Figure 4 again.Light beam through prism to 4 and pattern displacement piece 5 after, enter cylindrical mirror 6, the focal length of cylindrical mirror 6 is 1 meter, the spot size after cylindrical mirror 6 as shown in Figure 5, the angle of divergence of its slow-axis direction becomes 0.075mrad from 1.02mrad, approach with the quick shaft direction angle of divergence, and then eliminate the astigmatism of slow axis and quick shaft direction.Now the astigmatism situation after plus lens 7 as shown in Figure 8.Fig. 6 and Fig. 7 are respectively light spot shape figure while having or not cylindrical mirror 6, can find, add after cylindrical mirror 6, and slow-axis direction light spot shape improves greatly.Light after compensation is again after plus lens 7, and obtaining slow-axis direction spot size is 75 microns, and quick shaft direction spot size is the hot spot that converges of 15 microns of left and right.
The present embodiment a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, both realized beam shaping, the dimension scale of the hot spot of fast, the slow-axis direction obtaining after plus lens 7 converges is greater than 1: 5, by the astigmatism of light beam itself with by prism, the astigmatism of 4 generations is eliminated simultaneously, after having shaping, beam quality is high, the signal to noise ratio (S/N ratio) that improves instrument, is easy to the advantages such as adjusting when installing simultaneously, making.
The utility model still has numerous embodiments, and all employing equivalents or equivalent transformation and all technical schemes of forming, within all dropping on protection domain of the present utility model.
Claims (10)
- One kind based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: be included in the collimation lens that sets gradually in same light path, prism to, pattern displacement piece and cylindrical mirror, described cylindrical mirror is eliminated the astigmatism producing by the astigmatism of light beam itself with by described prism simultaneously; When described prism is when compressing hot spot, described cylindrical mirror has positive focal power, and when described prism is when expanding hot spot, described cylindrical mirror has negative focal power.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: described collimation lens has positive focal power, effective focal length is 2mm-5mm.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: described collimation lens and described prism between be provided with telescopic system.
- According to claim 3 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: described telescopic system comprises negative lens and positive lens.
- According to claim 3 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: described telescopic system to input the described collimation lens of process collimate the fast axle of elliptical beam obtaining, the hot spot of slow axis both direction expands or the bundle that contracts simultaneously, make the hot spot collimation output of quick shaft direction, the spot size of described quick shaft direction is at 4mm-7mm; Described prism, to the hot spot of slow-axis direction being expanded or the bundle that contracts, makes the spot size of slow-axis direction at 0.8mm-2mm, makes the hot spot of slow-axis direction along the output of optical axis direction collimation.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: described pattern displacement piece is cube.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: the logical light face of described pattern displacement piece is polishing bright, its lap is hair side.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: the not plated film of front surface of the logical light face of described pattern displacement piece, rear surface is coated with anti-reflection film.
- According to claim 8 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: the logical light face of described pattern displacement piece becomes miter angle with optical axis, described front surface reflection part light, for signal feedback, makes luminous energy export with firm power.
- According to claim 1 a kind of based on prism to the astigmatic bundle orthopedic systems that disappears of cylindrical mirror, it is characterized in that: after described cylindrical mirror, also comprise that plus lens, described plus lens are the cemented doublet with positive light coke.
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CN201420094932.2U CN203838413U (en) | 2014-03-04 | 2014-03-04 | Anastigmatic light beam shaping system based on prisms and cylindrical mirror |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103885186A (en) * | 2014-03-04 | 2014-06-25 | 维林光电(苏州)有限公司 | Astigmatism eliminating light beam shaping system based on prism pair and cylindrical mirror |
CN104608486A (en) * | 2015-01-26 | 2015-05-13 | 尹刚 | Ultraviolet light box |
CN106019608A (en) * | 2016-06-16 | 2016-10-12 | 维林光电(苏州)有限公司 | Gaussian-like flat-topped beam laser system |
-
2014
- 2014-03-04 CN CN201420094932.2U patent/CN203838413U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103885186A (en) * | 2014-03-04 | 2014-06-25 | 维林光电(苏州)有限公司 | Astigmatism eliminating light beam shaping system based on prism pair and cylindrical mirror |
CN103885186B (en) * | 2014-03-04 | 2016-09-07 | 维林光电(苏州)有限公司 | A kind of based on prism to and cylindrical mirror disappear astigmatic bundle orthopedic systems |
CN104608486A (en) * | 2015-01-26 | 2015-05-13 | 尹刚 | Ultraviolet light box |
CN106019608A (en) * | 2016-06-16 | 2016-10-12 | 维林光电(苏州)有限公司 | Gaussian-like flat-topped beam laser system |
CN106019608B (en) * | 2016-06-16 | 2019-07-23 | 维林光电(苏州)有限公司 | One type Gauss flat top beam laser system |
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Granted publication date: 20140917 Termination date: 20170304 |