KR950006635Y1 - Measuring apparatus of polarized light for laser beam - Google Patents

Abstract

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Description

Polarization Measurement Device of Laser Beam

1 is an exemplary view of a conventional polarization measuring apparatus.

2 is an embodiment of a polarization measuring apparatus according to the present disclosure.

3 is a configuration diagram of the polarization measurement unit of FIG.

Figure 4 is a view for explaining the booster angle of the present invention.

* Explanation of symbols for main parts of the drawings

15: polarization measurement unit 20: Burster window

21: optical fiber 22: beam damper

23: rotor base

The present invention relates to a device for measuring the polarization of a laser beam, and in particular, by measuring the polarization distribution of the laser beam suitable for deriving the polarization distribution characteristics according to the angle change of the laser beam transmitted along the horizontal optical axis of the incident surface by placing an angle adjusting rotor in the polarizer Relates to a device.

Conventionally, the polarization measuring apparatus of the laser beam is composed of a polarizer 11 which allows the laser beam generated by the laser beam generator 10 to enter the output detector 12 along the horizontal optical axis as shown in FIG.

However, since the polarizer of the conventional polarization measuring device is mainly focused on low-power laser beam output, it cannot measure the polarization of the high-power laser beam, and for each laser beam having multiple wavelengths, each polarizer must be provided. According to the change of angle, there was a problem that polarization measurement cannot be performed.

Therefore, the present invention is conceived in view of the above-described problems of the prior art, the purpose of which is to use the physical properties of light and material to know the laser wavelength desired by the user to derive the booster window and the booster angle polarization The present invention provides a polarization measuring device for a laser beam that can easily provide factors that help measurement research and contribute to deriving a polarization distribution by a plotter.

Specific means for achieving the above object of the present invention has a laser beam generator 10, and an output detector 12 for detecting the laser beam thereof and indicating a polarization value in the polarization measurement by transmitting the laser beam through a horizontal optical axis And attaching the booster window 20 that transmits the laser beam in parallel to the incident surface to the optical fiber 21 inclined at the booster angle, and an angular scale is formed on the other side of the optical fiber 21 and is driven by external power. The rotating rotor base 23 is installed so as to rotate, and a beam damper 22 for absorbing the laser beam reflected from the incident surface of the booster window 20 is installed.

An embodiment of the present invention configured as described above will be described with reference to FIGS. 2 to 4.

2 is a view showing an embodiment of the polarization measuring apparatus according to the present invention, and FIG. 3 is a detailed view of the polarization measuring unit 15 of FIG.

That is, as shown in FIG. 2, when the laser beam generator 10 operates, a laser beam generated therefrom is irradiated, and the laser beam is incident on the booster window 20 of the polarization measuring unit 15.

At this time, the laser beam incident on the booster window 20 is directed to the optical fiber 21 as shown in FIG. 4. Only the polarization component parallel to the incidence plane is transmitted by the booster window 20, which is inclined to the angle of incidence. Angle( ) n = 64.4 °.

Thus, the booster angle ( )end In the state where n = 64.4 °, the laser beam is refracted at an angle of refraction of n = 2.403 as it passes through the incidence plane of the booster window 20, and outputs the light through the optical fiber 21 and the rotor base 23 on a horizontal line. 12) is transmitted.

At this time, in the state that the laser beam is irradiated to the output detector 12 by the polarization measuring unit 15 to the horizontal optical axis, the rotor base 23 of the polarization measuring unit 15 and the external power, that is, the motor shown in the figure; It is possible to obtain the output according to the angle of the laser beam talking to it by rotating by the chain (belt-capable) configuration, which is a means for deriving the polarization distribution according to the angle of the laser beam plotter at the output terminal of the output detector 12 By connecting (13), the polarization of the laser beam for several wavelengths can be measured as one polarimeter.

Here, the booster window 20 of the polarization measuring unit 15 is made of a mixed material of zinc (Zn) and selenium (Se), which is a carbon dioxide laser beam having a wavelength of 10.6 μm and a booster window made of zinc and selenium. (20) between the polarization measuring unit (15) The polarization measurement can be easily configured by knowing the polarization characteristics of the laser beam according to the desired laser wavelength. Also, the polarization distribution can be derived as a plotter according to the angle of the polarization of the laser beam for various wavelengths. There is a number.

As described above, the present invention calculates the booster angle in consideration of the wavelength of the laser beam and the material of the booster window, and then rotates the rotor base by external power means. Polarization distribution characteristics, as well as the polarization of the laser beam for a plurality of wavelengths can be measured as a polarization measuring instrument, it is a very useful design that can derive the measured value by a plotter or the like.

Claims (2)

The laser beam generator 10 and the output detector 12 which detects the laser beam thereof, and shows the polarization value, the polarization measurement by transmitting the laser beam to the horizontal optical axis, the bour which transmits the laser beam parallel to the incident surface Attach the stud window 20 to the optical fiber 21 inclined at the Brewster angle, and install the rotor base 23 rotated by external power to form an angular scale on the other side of the optical fiber 21. And a beam damper (22) for absorbing the laser beam reflected from the incident surface of the booster window (20). The method according to claim 1, wherein the booster window 20 of the polarization measuring unit 15 is coated with zinc (Zn) and selenium (Se) to set the refractive index of the laser beam having a wavelength of 10.6㎛ to 2.403 and then transmit it to the horizontal optical axis. Polarization measuring apparatus of the laser beam, characterized in that.