SU684337A1 - Position-wise responsive pyroelectric radiation receiver - Google Patents

Claims (2)

wedge and 5 - radiation absorbing coating. The principle of operation of a position-sensitive pyroelectric radiation detector consists in the following. The investigated modulated radiation flux W is projected onto any zone of the absorbing coating 5 of the receiver. The resulting heat signal propagates through the separation layer 4 to the receiving electrode 2 and then through the electrode to the pyroactive layer 1, in which, due to the pyroelectric effect, an electrical signal arises from electrodes 2 and 3. Thus, the separation layer 4 plays the role of a thermal delay line. Since the separating layer 4 has a variable thermal complex conductivity with respect to the coordinate, its thermal constant time depends on the coordinate. The presence of separation layer 4 imposes a coordinate-dependent change in the phase of an electrical signal (when irradiated with a periodically modulated radiation flux), or a coordinate-dependent change in the duration of an electric pulse front (when irradiated with a jsHH pulsed radiation flux). The calculation performed gives an expression relating pyroelectric for example. and fi arising at the receiver, with an intense radiation flux W of thickness (3 separation layers and thermal characteristics of the receiver) If the thickness of the separation layer is greater than the length of the temperature wave in it, this expression takes the following form: 4.1g e W eCK.,) Jf, 6 pyroelectric coefficient and dielectric constant of pyroactive RL; KJ, K ,, are the thermal conductivities of the separating and pyroactive gr layers, respectively; The lengths of temperature waves in the separation and pyroactive. layers, respectively; {-g--} - pyroelectric signal phase. Thus, if the separation layer is made, for example, in the form of a wedge, the signal phase linearly depends on the coordinate of the incidence of the radiation flux. . Similarly, a linear relationship is observed between the duration of the leading edge of a pulsed signal and the coordinate of the fall of the pulsed radiation flux, if the separation layer thickness is, for example, quadratic, and the pulse duration does not exceed the thermal diffusion time in the separation layer / Position-sensitive n ( the accuracy and reliability of the measurement, since the measurement results do not depend on the intensity of the radiation flux, the sensitivity of the receiver and the amplification factor of the recording circuit due to the fact that the phase angle iwm is measured over a time interval. Formula of the invention: Position-sensitive g; roe-light receiver, containing a pyroactive layer coated with receiving and back electrodes and a radiation-absorbing coating, differing from that, in order to obtain a coordinate sensitivity that does not depend on the intensity of the incident radiation flux, a separation layer is placed between the radiation absorbing coating and the receiving electrode variable by the coordinate of the thermal conductivity. Sources of information taken into account in the examination 1.Certificate of certificate number 441458, cl. Q 01 I 5/44, 1974. 2. Kremenchugsky L.S. Ferroelectric Radiation Detectors, Kiev, Naukova Dumka, 1971, p. 156.