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公开(公告)号:US10146179B2
公开(公告)日:2018-12-04
申请号:US15205147
申请日:2016-07-08
发明人: Qian Zhou , Kai Ni , Rui Tian , Jinchao Pang , Mingfei Xu , Hao Dong , Jinchao Zhang
摘要: The invention provides an exposure method of a holographic grating and an exposure light path. The exposure method includes: (1) determining initial positions (C, D) of the two exposure light sources (S1, S2); (2) calculating imaging quality parameters of the grating; (3) setting a compensating mirror (A1) in the initial light path; (4) adjusting a position of the exposure light source (S1) to a new position (D1) according to a position of the compensating mirror (A1); (5) calculating imaging quality parameters of the grating; (6) judging whether the imaging quality parameters in the step (5) and the imaging quality parameters in the step (2) are equal, and if yes, using the new position (D1) as a final position of the exposure light source (S1). The exposure method and exposure light path may effectively solve a problem of a much too close distance between exposure light sources.
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公开(公告)号:US10061122B2
公开(公告)日:2018-08-28
申请号:US15216349
申请日:2016-07-21
发明人: Qian Zhou , Jinchao Zhang , Xinghui Li , Kai Ni , Jinchao Pang , Haifei Hu , Hao Dong , Huanhuan Wang , Xiangwen Zhu , Lanlan Wang
CPC分类号: G02B27/0012 , G02B5/1876 , G02B27/00 , G02B27/0037 , G02B27/4266
摘要: An optimized design method for manufacturing a Fresnel grating is disclosed, including the following steps: (1) making a Fresnel surface type of the Fresnel grating equivalent to a curved surface type, and determining, based on the curved surface type to which the Fresnel surface type is equivalent, an optical path difference function of the Fresnel grating: Φ (λ)= − +Nmλ; and (2) determining a Fresnel grating parameter that minimizes a function value of the optical path difference function, so as to manufacture a Fresnel grating that has an aberration elimination effect. The manufactured Fresnel grating may effectively eliminate a portion of aberrations of the Fresnel grating, and increase a resolution of a spectrometer.
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公开(公告)号:US09470824B2
公开(公告)日:2016-10-18
申请号:US14983334
申请日:2015-12-29
发明人: Qian Zhou , Kai Ni , Rui Tian , Yang Li , Mingfei Xu , Jinchao Zhang , Jinchao Pang , Hao Dong
CPC分类号: G02B5/1857 , G02B5/1847 , G02B5/1861
摘要: A manufacture method for a blazed concave grating is provided, including: replicating a blazed concave grating by means of a replication process, after the replication is completed, conducting heat preservation and cooling, then separating two gratings (G1, G2) by using different pulling manners respectively, and finally splicing the replicated and separated concave grating blanks, to obtain a required blazed concave grating. This manufacture method can solve the problem of a big error in an existing replication method for a blazed concave grating.
摘要翻译: 提供了一种用于闪耀凹面光栅的制造方法,包括:通过复制工艺复制闪耀的凹形光栅,复制完成后进行保温和冷却,然后通过使用不同的拉力分离两个光栅(G1,G2) 并最终将复制和分离的凹面光栅毛坯拼接,以获得所需的闪耀凹面光栅。 该制造方法可以解决现有的闪光凹面光栅复制方法中的大误差的问题。
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公开(公告)号:US10475634B2
公开(公告)日:2019-11-12
申请号:US15981490
申请日:2018-05-16
发明人: Quan Yu , Qian Zhang , Xiaohao Wang , Xiang Qian , Kai Ni
摘要: The vacuum electro-spray ion source comprises a hollow capillary, a vacuum cavity, a gas inlet pipe, a gas supply device and an adjusting device, wherein a first end of the hollow capillary is a sampling port, and a second end is used as a spray nozzle for vacuum electro-sprays and stretches into the vacuum cavity; the air pressure in the vacuum cavity is ranged from 10 to 200 Pa; one end of the gas inlet pipe stretches into the vacuum cavity, and the other end is connected with the gas supply device; and the adjusting device is configured for adjusting the gas inlet pipe to allow the gas to flow therein intermittently. The ion source may achieve electro-spray ionization in the vacuum environment, so that losses during ion transmission may be reduced to improve the signal intensity and detection limit during detection.
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公开(公告)号:US10345149B2
公开(公告)日:2019-07-09
申请号:US15206992
申请日:2016-07-11
发明人: Kai Ni , Qian Zhou , Jinchao Pang , Jinchao Zhang , Rui Tian , Mingfei Xu , Hao Dong
摘要: A design method of a spectrometer and a spectrometer are disclosed, including the following steps: 1) determining an incident angle of a second incident slit and a groove-shaped cycle of a concave grating; 2) estimating a blaze angle of the concave grating, determining a surface material and a groove-shaped structure of the concave grating; 3) acquiring wavelength-diffraction efficiency curves; 4) determining values of incident angles θA1 and θA3 and values of wavelengths λ2 and λ3, and setting λ4 to equal λ2; 5) acquiring a record structural parameter and a use structural parameter; 6) determining a manufacture parameter of the concave grating; 7) determining locations of the three incident slits and the three photodetectors relative to the concave grating. The spectrometer acquired by using this method has relatively high diffraction efficiency in most spectrum regions and effectively alleviates the problem of relatively low diffraction efficiency in a broad spectrum region.
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公开(公告)号:US10161904B2
公开(公告)日:2018-12-25
申请号:US15486040
申请日:2017-04-12
发明人: Kai Ni , Kaitai Guo , Quan Yu , Binchao Tang , Zhou Yu , Xiang Qian , Xiaohao Wang
摘要: A method for tracing a distribution of moving ions in an ion mobility spectrometer is provided, including steps: first selecting a sample having light-emitting characteristics as a tracing sample; subsequently, ionizing the tracing sample by using an ionization source, and feeding ions of the tracing sample to a drift tube of the ion mobility spectrometer; using a plate to collect the ions at a cross section to be detected; and finally processing the ions collected on the plate by using an appropriate means, thereby enabling the ions to emit light, and displaying a distribution view of movement positions of the ions on the cross section. By combining a light-emitting tracing means and movements of charged ions in an ion mobility spectrometer, it is able to master a position distribution of the charged ions in the ion mobility spectrometer more intuitively and practically.
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