Multi-bandpass filter
A band-pass filter and wavelength technology, which is applied in the direction of instruments, optical filters, electromagnetic wave transmission systems, etc., can solve the problems of communication quality deterioration and achieve high reliability
Inactive Publication Date: 2009-06-17
KOSHIN KOGAKU INDS +1
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- Abstract
- Description
- Claims
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Problems solved by technology
For filters capable of multiplexing or demodulating a plurality of light with different wavelength regions, it is necessary to make the cut-off depths between the different wavelength regions concerned sufficiently large and highly reliable, because if the cut-off depths are not sufficient, Mutual interference will be generated and the communication quality will be deteriorated
Method used
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[0088] Hereinafter, several embodiments of the present invention will be explained with reference to the drawings. For example, as shown in the schematic cross-sectional view of figure 1 As shown in, the multi-bandpass filter 1 of the present invention is a kind of dielectric A multilayer filter composed of a substrate 2 that is transparent to target light from the infrared to the ultraviolet range, and a thin film 3 laminated on the substrate 3 in a layered structure that forms a Fabry-Perot (FP) interferometer having a mirror portion, a spacer portion, and if required, a matching portion. These parts consist of two or more dielectrics with different refractive indices and different materials, which are stacked as a unit with an optical film thickness equal to 1 / 4 of the reference wavelength. The substrate 2 should be based on its use, from glass with less alkalinity, that is, white baffle glass of borosilicate glass, fused quartz, that is, quartz crystal mainly composed ...
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The present invention provides a multi-bandpass filter comprising a thin film superimposed layer portion 3 by mirror layers, cavity layers, etc., provided on a substrate 2 with two kinds of dielectrics having different refractive indices, the optical film thickness thereof being a quarter of a reference wavelength as one unit, so as to form a plurality of Fabry-Perrot interferometer structures, wherein the thin film superimposed layer portion 3 has a structure having relationship for superimposition i.e. [M0C1M1 . . . CiMi(T)]k or [M0C1M1 . . . CiMi]k (where i and k are an integer not less than 2, films of the dielectrics being represented by X and Y, the mirror layer being represented by M, the cavity layer being represented by C, and the matching layer being represented by T, and M is a single layer, the optical film thickness of films thereof being odd times of a quarter of the reference wavelength, or an alternating layer represented by [(2p+1)X, (2q+1)Y, . . . ] different dielectrics X, Y (where p, q, . . . are 0 or positive integers); C is a single layer, the optical film thickness of films thereof being even times of a quarter of the reference wavelength, or an alternating layer represented by [(2r)Y, (2s)X, . . . ] of different dielectrics X and Y (where r, s, . . . are zero or positive integers), and T is a single layer, the optical film thickness of films thereof being odd times of a quarter of the reference wavelength.
Description
technical field [0001] The present invention relates to a multi-bandpass filter having passbands in multiple wavelength regions. Background technique [0002] As is well known, optical signals necessary in an optical fiber transmission system for optical communication are efficiently transmitted by a wavelength division multiplexing system (WDM). In this system, a plurality of lights with different wavelength regions are simultaneously transmitted through a single optical fiber cable through an optical wavelength multiplexer, which is a type of interference filter that uses light effectively. Filtering band-pass filter, and then through the signal demodulator with the same structure as the optical multiplexer, these lights are divided into the light of each wavelength region. However, in order to ensure excellent transmission, the multiplex modulation and demodulation must be performed when band-pass filters corresponding to multiple wavelength regions are prepared. [000...
Claims
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IPC IPC(8): G02B1/10G02B5/20G02B6/132H04B10/12G02B5/28G02B6/293
CPCG02B5/288
Inventor 上川尚
Owner KOSHIN KOGAKU INDS