초록 ▼

An object of the present invention is to provide a device which detects matter suspended in air, represented by, for example, ice crystals, volcanic ash, in the forward direction of the flight of an aircraft. A method of detecting matter suspended in air of this invention is characterized in that, i

An object of the present invention is to provide a device which detects matter suspended in air, represented by, for example, ice crystals, volcanic ash, in the forward direction of the flight of an aircraft. A method of detecting matter suspended in air of this invention is characterized in that, in airborne Doppler LIDAR using laser light, components of matter subjected to laser light reflection and scattering are remotely measured on a basis of an angular difference in planes of polarization of transmitted light which is laser light radiated into the atmosphere, and received light scattered by matter suspended in air in a remote region.

대표청구항 ▼

1. A method of detecting matter suspended in air, in airborne Doppler LIDAR using laser light, the method comprising: remotely measuring a component of matter subjected to laser light reflection and scattering on a basis of the angular difference in planes of polarization of transmitted light which

1. A method of detecting matter suspended in air, in airborne Doppler LIDAR using laser light, the method comprising: remotely measuring a component of matter subjected to laser light reflection and scattering on a basis of the angular difference in planes of polarization of transmitted light which is laser light radiated into the atmosphere and received light scattered by matter suspended in air in a remote region, based on a correspondence relation between a depolarization ratio and components of matter suspended in air,wherein the measurement of the region of suspension of matter excludes an intensity region specific to a device based upon a focal length. 2. The method of detecting matter suspended in air according to claim 1, wherein laser light having a plane of polarization in one direction (an X-axis direction) is used as the transmitted light radiated into the atmosphere, and depolarization ratio δ of received light, which is an index indicating proportion of change of a polarization state of received light to that of transmitted light due to scattering by matter suspended in air, is expressed by the following equation: δ=|Ry|/|Rx|where |Rx| is an intensity of the polarization component in the X-axis direction (parallel to the polarization direction of the transmitted light) of the received light R which has been scattered by matter suspended in air and returned to a transmission source, and |Ry| is an intensity of the polarization component in a Y-axis direction (perpendicular to the polarization direction of the transmitted light) of the received light R. 3. The method of detecting matter suspended in air according to claim 1, wherein a region of suspension of matter suspended in air is estimated from distant attenuation characteristic of a reception intensity of received light where the reception intensity of the received light does not attenuate with increasing measurement distance, and remote measurement of a component of the matter reflecting laser light is performed for the estimated suspension region. 4. The method of detecting matter suspended in air according to claim 2, wherein a region of suspension of matter suspended in air is estimated from the distant attenuation characteristics of the reception intensity of received light where the reception intensity of the received light does not attenuate with increasing measurement distance, and remote measurement of a component of the matter reflecting laser light is performed for the estimated suspension region. 5. A LIDAR device for detecting matter suspended in air, comprising: an optical telescope, which radiates (transmits) laser light into the atmosphere as transmitted light and which receives scattered laser light due to scattering of the laser light by aerosols in the atmosphere as received light;means for measuring depolarization ratio between the transmitted light and the received light; andmeans for detecting matter suspended in air, said means for detecting a component of matter suspended in air including ice crystals and volcanic ash on a basis of proportion of change in measured polarization states,wherein the measurement of the region of suspension of matter excludes an intensity region specific to the LIDAR device based upon a focal length. 6. The LIDAR device for detecting matter suspended in air according to claim 5, further comprising Doppler LIDAR means for, based on a Doppler shift between said transmitted light and said received light, measuring velocity of an air current in a remote region.