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Superresolved phase modulating sheet for flare three-dimensional compression and its processing method

A phase modulation and processing method technology, applied in the field of femtosecond laser micro-nano processing, can solve the problems of failing to achieve three-dimensional super-diffraction resolution, not giving practical application methods, not giving design results and manufacturing, etc. The effect of machining resolution, compact structure and simple manufacturing process

Inactive Publication Date: 2009-04-29
UNIV OF SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in actual use, reducing the wavelength of light is limited by luminescent materials and laser technology, and the increase in numerical aperture is restricted by optical materials and optical lens design, reducing the size of the diffraction spot is very limited
[0003] According to "Research on Femtosecond Laser Two-Photon Three-dimensional Microfabrication Technology" (Ph. The light intensity distribution of the converging spot is ellipsoidal, and the longitudinal (optical axis) size of the spot is about 3 times larger than the transverse (focal plane) size, which not only makes the processing resolution along the optical axis relatively low, but also makes it difficult to effectively apply For example, two-photon three-dimensional storage or processing of complex structures in the height direction
[0004] According to "APPLIED OPTICS" (Vol.43, No.22August 2004 / p4233-4327) published by the "Optical Society of America" ​​in the United States in 2004, Colin J.R. Sheppard and others have carried out the use of phase and amplitude flat panel filters. Theoretical analysis, gives preliminary conclusions to overcome the diffraction limit in the transverse or longitudinal direction, but does not give the method of its practical application
[0005] According to "OPTICS LETTERS" (Vol.28, No.8 / April, 2003-p607—609) published by the "Optical Society of America" ​​in the United States in 2003, a series of annular binary phase pupil filters were designed, analytically The parameters that characterize the filter are deduced, and a super-diffraction continuous phase plate is proposed, in the hope that the high-resolution properties of its super-diffraction technology can be applied in many aspects. However, it is only a design analysis calculation, and no design results are given. and manufacturing applications
[0006] According to the introduction of "OPTICS LETTERS" (Vol.29, No.23 / December, 2004-p2746-2748) published by the "Optical Society of America" ​​in 2004, Zhou Changhe et al. The filter has obtained a lateral compression ratio of 0.8 and is applied in a single-layer high-density optical data storage, but it achieves super-diffraction in the lateral direction and fails to achieve three-dimensional super-diffraction resolution
[0007] According to "OPTICS EXPRESS" (Vol.13, No.16 / August 2005 / p6168-6174) published by the "Optical Society of America" ​​in the United States in 2005, Gibert Boyer et al. inserted a The three-ring amplitude filter obtains a quasi-spherical focal spot, and obtains the same imaging quality in three directions in three-dimensional imaging. However, its amplitude modulation is difficult to apply in laser micro-nano processing that requires high power.
[0008] According to "OPTICS LETTERS" (Vol.28, No.1 / January 1, 2003 / -p55-57) published by the "Optical Society of America" ​​in the United States in 2003 and "OPTICS EXPRESS" (Vol.13, No. .19 / September2005 / p7288-7297) introduced that by setting a rectangular aperture in front of the focusing objective lens and adjusting the size of the rectangular aperture to realize the three-dimensional space modulation of the focusing spot, but the amplitude modulation will seriously reduce the exiting spot It is difficult to apply in femtosecond laser processing that requires high power
[0009] According to the "Journal of University of Science and Technology of China" (Vol.37, No.7, 2007, p748-752) published in China in 2007, a binary phase superdiffraction optical modulation element was theoretically obtained through optimized design. The change in the thickness direction of the optical modulation element is used to achieve super diffraction. However, the change in the thickness direction of several nanometers is difficult in the current manufacturing, measurement and evaluation, so it is difficult to manufacture it in the femtosecond laser processing system. to improve the super-resolution

Method used

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  • Superresolved phase modulating sheet for flare three-dimensional compression and its processing method
  • Superresolved phase modulating sheet for flare three-dimensional compression and its processing method
  • Superresolved phase modulating sheet for flare three-dimensional compression and its processing method

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Embodiment 1

[0053] According to the super-diffraction theory, the phase modulation of lasers with different wavelengths and different intensity distributions is calculated, and a binary femtosecond near-infrared light with a wavelength of 800nm ​​and a Gaussian distribution of light intensity is designed by using a genetic algorithm and a global optimization algorithm. The phase modulation film, the structure of the phase modulation film, the number of rings, the radius of each ring and the size of the groove, with line width compression as the optimization goal, a phase modulation film structure designed by calculation is shown in the attached figure 1 , where Figure (a) is a front view of a circular phase modulation film, and Figure (b) is a cross-sectional view of a left view cut along the central axis along the direction of the up and down arrows, where r 0 = 0 center to r 1 The shadow of the part between is a raised frustum, r 1 ~ r 2 The part between them is an annular flat-bottom...

Embodiment 2

[0055] image 3 A three-dimensional structure diagram of a super-diffraction phase modulation plate for femtosecond laser processing system with three-dimensional compression designed for the phase modulation technology of super-diffraction theory, genetic algorithm and global optimization algorithm. The wavelength of the femtosecond laser is 790nm. The light intensity is a Gaussian distribution, and the phase modulation plate calculated by taking the aspect ratio as the optimization target is a circular multi-ring structure. The number of rings is 4 grooves of equal depth and different width. The raised round platform is adjacent to a flat-bottomed groove, and its periphery is an annular boss with a narrow width, and the outer periphery is a flat-bottomed groove. There is an annular boss between the outside of the groove and the largest outer circle. Figure 4 It is the simulation calculation result before and after modulation, in which figure (a) is the calculation result of...

Embodiment 3

[0057] Attached image 3 The structure and parameters of the three-dimensional compressed superdiffraction phase modulation plate, Figure 5 It is the micromachining flow chart of the optical glass substrate phase modulation film, in which the picture (a) is the selection of K9 optical glass material as the phase modulation film substrate 1, and the picture (b) is obtained according to the optimized design image 3 The special positive resist lithography template 2 made by the parameters shown in the figure (c) is to apply the positive resist 3 on the optical glass substrate 1 by using the glue-spinning process, and the figure (d) is based on the outer contour of the glass substrate 1. The benchmark is aligned with the special positive resist lithography template 2, and covered on the positive resist 3, and photolithography is carried out by parallel light 4. Figure (e) is a development structure diagram of the positive resist 3 on the glass substrate 1 after photolithography....

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Abstract

The invention provides a super-resolution phase modulation plate for 3D light spot compression and a processing method. The center of the modulation plate is a convex truncated cone or a circular flat-bottomed recess which are arranged at intervals; surfaces of the convex truncated cone, the circular flat-bottomed recess and a circular boss are in the same plane, and depths of various circular flat-bottomed recesses are identical. Structural parameters of the modulation plate are derived and determined according to an equation of Huygens-Fresnel principle. The super-resolution phase modulation plate for the 3D compression is obtained by a micro technological process, designed and mounted by combing parameters of a laser processing system, and used for the 3D compression of femtosecond laser light spots of a femtosecond laser processing system, which improves shape of light spots and improves the processing resolution. The phase modulation plate is made of optical glass materials, has the advantages of simple fabrication process, high precision, compact mounting structure, convenient operation and the like, and is widely applied to the laser micro / nano processing fields.

Description

Technical field: [0001] The invention belongs to the field of femtosecond laser micro-nano processing, and relates to an optical device design method and a processing technology for realizing three-dimensional compression of focused light spots through superdiffraction phase modulation. Background technique: [0002] According to pages 353-355 of "Engineering Optics" (Second Edition) published by Machinery Industry Press in 2006, due to the ubiquity of diffraction phenomena, in ordinary optical systems, point objects or point light sources are no longer a single object after imaging. Instead, it expands into a certain spatial light field distribution near its image plane, that is, the Fraunhofer diffraction pattern formed by the imaging system on the point object on its image plane is called the Airy diffraction pattern. spot. According to the Rayleigh criterion, the size of the Airy spot can reflect the resolution of the optical system, and the radius of the Airy spot is p...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B27/00G02B1/02B23K26/00
Inventor 王翔赵钢何冀军禇家如刘爽谭又华黄文浩
Owner UNIV OF SCI & TECH OF CHINA
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