Laser radar device

The invention claimed is: 1. A laser radar device comprising: a light source configured to output a laser light beam; a polarization changing unit configured to output said laser light beam toward a direction corresponding to each of p-polarization and s-polarization of said laser light beam while changing the p polarization and the s-polarization of said laser light beam outputted from said light source with respect to time; a first transmission and reception optical system configured to emit the laser light beam outputted from said polarization changing unit into space, and receiving a reflected light beam of said laser light beam, the reflected light beam being reflected by a first observation target existing in the space; a second transmission and reception optical system disposed in a direction different from that in which said first transmission and reception optical system is disposed, configured to emit the laser light beam outputted from said polarization changing unit into the space, and receive a reflected light beam of said laser light beam, the reflected light beam being reflected by a second observation target existing in the space; a reception optical system configured to receive the reflected light beam received by said first transmission and reception optical system, and also receive the reflected light beam received by said second transmission and reception optical system; and a heterodyne detecting unit configured to combine each of the reflected light beams received by said reception optical system, and a local light beam corresponding to the laser light beam outputted from said light source, to acquire beat signals, wherein said heterodyne detecting unit includes: a reflected light beam switching unit configured to output the reflected light beams received by said reception optical system toward a direction corresponding to each of p-polarization and s-polarization of said reflected light beams; a local light beam switching unit configured to output the local light beam corresponding to the laser light beam toward a direction corresponding to each of p-polarization and s-polarization of said local light beam while changing the p polarization and the s-polarization of said local light beam outputted from said light source with respect to time; a first heterodyne detecting unit configured to combine one of the reflected light beams outputted from said reflected light beam switching unit and the local light beam outputted from said local light beam switching unit, to acquire a beat signal; and a second heterodyne detecting unit disposed in a direction different from that in which said first heterodyne detecting unit is disposed, configured to combine another of the reflected light beams outputted from said reflected light beam switching unit and the local light beam outputted from said local light beam switching unit, to acquire a beat signal. 2. The laser radar device according to claim 1 , wherein said polarization changing unit comprises: a polarization changing device configured to change the p polarization and the s-polarization of the laser light beam outputted from said light source with respect to time, and a polarizer configured to output said laser light beam to either said first transmission and reception optical system or said second transmission and reception optical system in accordance with the polarization changed by said polarization changing device. 3. The laser radar device according to claim 2 , wherein said polarizer reflects the reflected light beams received by said first and second transmission and reception optical systems toward a direction in which said reception optical system is disposed. 4. A laser radar device comprising: a light source to output a laser light beam; a polarization changing unit configured to output said laser light beam toward a direction corresponding to each of p-polarization and s-polarization of said laser light beam while changing the p polarization and the s-polarization of said laser light beam outputted from said light source with respect to time; a first transmission and reception optical system configured to emit the laser light beam outputted from said polarization changing unit into space, and receive a reflected light beam of said laser light beam, the reflected light beam being reflected by a first observation target existing in the space; a second transmission and reception optical system disposed in a direction different from that in which said first transmission and reception optical system is disposed, configured to emit the laser light beam outputted from said polarization changing unit into the space, and receive a reflected light beam of said laser light beam, the reflected light beam being reflected by a second observation target existing in the space; a reception optical system configured to receive the reflected light beam received by said first transmission and reception optical system, and also receive the reflected light beam received by said second transmission and reception optical system; and a heterodyne detecting unit configured to combine each of the reflected light beams received by said reception optical system, and a local light beam corresponding to the laser light beam outputted from said light source, to acquire beat signals, wherein said heterodyne detecting unit includes: a reflected light beam switching unit configured to output the reflected light beams received by said reception optical system toward a direction corresponding to each of p-polarization and s-polarization of said reflected light beams; a local light beam splitting unit configured to split the local light beam corresponding to the laser light beam outputted from said light source into beams in two directions; a first heterodyne detecting unit configured to combine one of the reflected light beams outputted from said reflected light beam switching unit and a local light beam which is one of the beams split by said local light beam splitting unit, to acquire a beat signal; and a second heterodyne detecting unit configured to combine another of the reflected light beams outputted from said reflected light beam switching unit and a local light beam which is another of the beams split by said local light beam splitting unit, to acquire a beat signal. 5. The laser radar device according to claim 4 , wherein said polarization changing unit comprises: a polarization changing device configured to change the p polarization and the s-polarization of the laser light beam outputted from said light source with respect to time, and a polarizer configured to output said laser light beam to either said first transmission and reception optical system or said second transmission and reception optical system in accordance with the polarization changed by said polarization changing device. 6. The laser radar device according to claim 5 , wherein said polarizer reflects the reflected light beams received by said first and second transmission and reception optical systems toward a direction in which said reception optical system is disposed.