A high-diffusion-coefficient and high-brightness light source generation device comprising: a light source module, an optical fiber bundle and an optical fiber hemisphere emitter, wherein the light source module provides the optical fiber bundle with a plane light source having the same size as an end surface of an incident end thereof, the incident end receives light emitted from the light source module, exit ends transmit the light to the optical fiber hemisphere emitter, the exit ends of the optical fiber bundle arranged on a hemispherical wall of the optical fiber hemisphere emitter in an equal solid angle manner, an end surface of each optical fiber exit end located on the same surface as the inner wall of a hemisphere, a bottom plate arranged above an opening of the optical fiber hemisphere emitter, and an opal glass window arranged at the circle center position of the bottom plate.

The present invention relates to a high-intensity discharge lamp (1) comprising a discharge vessel (2) enclosing a filling in a discharge chamber (3), and a pair of electrode rods (4, 5) being formed of a material which is free of thorium and protruding from opposite sides into the discharge chamber (3). The diameter ED of the electrode rods (4, 5) in the discharge chamber (3) N satisfies the formula (I), wherein W represents the value of the nominal lamp power in mW and Ed represents the value of the distance of the electrode rods (4, 5) in the discharge chamber (3) in mm, and wherein the nominal lamp power W is between 20 W and 50 W. With the above formula, high-intensity discharge lamps can be easily designed with different nominal powers and/or 10 electrode distances without time consuming experiments in order to achieve an optimum performance.

[00001]$\begin{array}{cc}\mathrm{ED}{\mathrm{ED}}_0=\sqrt{.Math..Math.W/\left[1+\frac{\mathrm{Ed}-3}{3.Math..Math.\mathrm{Ed}}\right]}.Math.m-10.Math.m,& \left(I\right)\end{array}$

A photoionization detector sensor equipped with a temperature compensating and output adjustable ultraviolet lamp driver for supplying an alternating current signal to the ultraviolet lamp effective to light the ultraviolet lamp with direct current supplied from both a first variable voltage supply circuit and a second temperature sensitive fixed voltage supply circuit, and method of standardizing output of the photoionization detector sensor by adjusting the voltage supplied to the driver by the first variable voltage supply circuit so that future reported values will more closely approximate actual values.

A holding device for a light guide body includes a holding body that includes a light guide receiver and that is formed from a first holding body part and a second holding body part. The light guide receiver is formed as a depression which is delimited on opposite sides by two enclosing sections of the first holding body part. The second holding body part is connected to the first holding body part such that, by an elastic deformation of the second holding body part, a width of an opening is increased by spreading apart the two enclosing sections so that the light guide body can be inserted into the light guide receiver. After removal of the deformation force, the holding body returns to its basic shape, whereby the enclosing sections enclose the light guide body inserted into the depression, and the light guide body is clamped by the enclosing sections.