Particle detection device

What is claimed is: 1. A particle detector, comprising: a scattered light detector that detects an intensity of light scattered by a particle as a result of being irradiated with a laser beam; an incandescent light detector that detects an intensity of incandescent light generated by said particle as a result of being irradiated with said laser beam; and a signal processing part that includes: a first peak hold circuit that holds a peak value in the intensity of the light scattered by said particle detected by the scattered light detector; a second peak hold circuit that holds a peak value in the intensity of the incandescent light generated by said particle detected by the incandescent light detector; and a threshold value comparison circuit that compares the peak value held by the first peak hold circuit to a prescribed threshold value and, when the peak value held by the first peak hold circuit exceeds the prescribed threshold value, outputs a reset signal to the second peak hold circuit immediately thereafter so that the peak value previously held by the second peak hold circuit is reset immediately after the peak value held by the first peak hold circuit exceeds the prescribed threshold value, wherein said signal processing part is configured such that after a prescribed time has passed since when the peak value held by the first peak hold circuit is determined to exceed the prescribed threshold value, the respective peak values then held by the first and second peak hold circuits are both reset. 2. A particle detector, comprising: a scattered light detector that detects an intensity of light scattered by a particle as a result of being irradiated with a laser beam; an incandescent light detector that detects an intensity of incandescent light generated by said particle as a result of being irradiated with said laser beam; and a signal processing part that includes: a first peak hold circuit that holds a peak value in the intensity of the light scattered by said particle detected by the scattered light detector; a second peak hold circuit that holds a peak value in the intensity of the incandescent light generated by said particle detected by the incandescent light detector; and a threshold value comparison circuit that compares the peak value held by the first peak hold circuit to a prescribed threshold value and, when the peak value held by the first peak hold circuit exceeds the prescribed threshold value, outputs a reset signal to the second peak hold circuit immediately thereafter so that the peak value previously held by the second peak hold circuit is reset immediately after the peak value held by the first peak hold circuit exceeds the prescribed threshold value, wherein the signal processing part further includes: an analogue-digital (AD) conversion circuit or circuits that convert the peak values held by the first and second peak hold circuits to respective digital signals after a prescribed time has passed since when the peak value held by the first peak hold circuit is determined to exceed the prescribed threshold value, and wherein said signal processing part is configured such that after another prescribed time that is longer than said prescribed time has passed since when the peak a held by the first peak hold circuit is determined to exceed the prescribed threshold value, the respective peak values then held by the first and second peak hold circuits are both reset.