DE2913270A1 - Laser optical system forming pulsed light beam - has Pockel cell oscillator between resonant mirrors and in line with quarter wave plate and linear polariser - Google Patents

Abstract

The laser optical system consists of a laser optical element (6) with its optical axis coincident with an opaque resonating mirror (2) on one side and, on the other side, a quarter-wave plate (5), a linear polariser (4), a laser-active medium (1) and a partly transparent resonating mirror (3). The laser active medium (1) is typically an Nd glass or Nd doped YAG crystal, the linear polarisium is of calcite and the quarter-wave plate of quartz. The laser optical element is constructed as a Pockel cell with side electrodes and a central KDP crystal. (Potassium-dihydrogen-phosphate). The cell has an electrical voltage applied to cause it to function as an oscillator and emit pulses of laser light for the irradiation of solid or liquid materials.

Description

LASER ARRANGEMENT WITH AN ELECTRO-OPTICAL SWITCH

AND METHOD OF OPERATING THIS ARRANGEMENT The present earth connection relates to a laser arrangement with an electro-optical Q switch, which consists of a between the laser-active medium and the respective impermeable resonator mirror arranged electro-optical component and one between this component and the laser-active medium arranged linear polarizer consists. The invention relates also refer to a method for operating this arrangement and a use the arrangement for generating short acoustic pulses.

Electro-optical Q-switches of the type described above are for example from the book: W. Koechner "Solid-State Laser Engineering", Springer Verlag 1976, p. 411 ff.

known. In this known arrangement must on the electro-optical Component - which is, for example, a Pockels cell or a Kerr cell can act during the entire pumping process of the laser-active medium Tension. This ensures that the laser does not emit any light while it is pumping gives away. Because the voltage is chosen so that due to the in the Ke-rrzelle generated birefringence between ordinary and extraordinary ray of light there is a phase difference of »/ 4. The 1 entering the Kerr cell is inearpolarized light is then circularly polarized, reflected on the resonator mirror, arrives again into the Kerr cell and enters there as linearly polarized light with one to the original Vibration level vertical vibration level.

Only during the relatively short outside view, in which a laser If the light pulse is to be generated, 1 does not apply any voltage to the Kerr cell, so that the 1 inearpolarized light back into the polarizer without changing the plane of oscillation got.

An arrangement is also known from the cited literature reference, in which a voltage only has to be applied to the electro-optical element, when the laser light pulse is to be generated. However, with this arrangement relatively high voltages required because of the phase difference between the ordinary and the extraordinary light beam after passing through the Kerr cell are j, / 2 got to. In addition, a second linear polarizer is required for this Q-switch.

It is the object of the present invention to provide a laser arrangement to further develop with a Q-switch of the type described at the beginning so that on the electro-optical component only for as short a time as possible Voltage, which should also have the lowest possible value.

This object is achieved in that between the electro-optical component and the linear polarizer einh./4 plate is.

The method for operating such an arrangement then takes place in such a way that a voltage is only applied to the electro-optical component when the energy stored in the laser-active medium is emitted as a light pulse shall be; the voltage required is chosen so that due to the birefringence caused by this tension, between ordentl A phase difference of / 4 results for the external and external light beam.

The invention has over the known arrangements above all the advantage that due to the low voltage, each only a short time is on the electro-optical component, the service life of the electro-optical components increases significantly. This has proven to be particularly good at high pulse repetition rates proved beneficial. In addition, the new arrangement does not require any additional Polar i sator.

Further details and advantages of the earth connection can be found in the the following exemplary embodiments described with reference to figures: It shows: Fig. 1 schematically shows a laser arrangement with a Q switch according to the invention; Fig. 2 the Cross-section of a Pockels cell with integrated ~ d / 4 plate; and FIG. 3 shows the temporal Course of the pump light intensity (3 a), that lying on the electro-optical component Voltage (3 b) and the light emitted by the laser (3 c).

In Fig. 1 there is a laser-active medium 1, for example made of neodymium glass or noedym-doped yttrium aluminum garnet (YAG) can exist between one opaque Pesonatorsoiegel 2 and a partially transparent output mirror 3 shown. The one between the laser-active medium 1 and the resonator mirror 2 arranged Q-switch consists of a linear polarizer 4 (e.g. made of calcite) a "L / 4 plate 5 (e.g. made of quartz) and a Pockels cell 6, which for example contains a potassium dihydrogen phosphate (KDPiKristall. The pump, device and other devices required to operate the laser are not shown.

A light beam emitted by the laser-active medium 1 occurs behind the polarizer 4 as 1 inearpolarized light beam into the z / 4 plate 5 and is converted by this into circularly polarized light, which then passes through the Pockels cell 6 passes through, is reflected by the resonator mirror 2 and from the A / 4 plate 5 again into linearly polarized light, with one to the original Vibration plane vertical vibration plane is converted.

If a voltage is now applied to the Pockels cell 6, the between causes a phase difference of 1/4 in ordinary and extraordinary rays, so the effect of the Sl / 4 plate 4 is compensated. The reflected light gets there back into the laser-active medium 1 and the laser arrangement acts as an oscillator.

The same effect can also be achieved if the plate 5 instead between the polarizer 4 and the Pockels cell 6, between the latter and the resonator mirror 2 is arranged.

It has proven to be advantageous if the L / 4 plate 5 is mechanically is connected to the Pockels cell. A corresponding arrangement is shown in FIG. With 7 the housing of the Pockels cell is with 11 the KDP crystal, with 9 the only schematically indicated electrodes, with 5 the ft / 4 plate and with 8 the exit window of the cell.

FIGS. 3a to 3c show the time relationship between the pumping process (Fig. 3a), the course of the voltage applied to the Pockels cell (Fig. 3b) and the emitted laser pulse (Fig. 3c) again. During a period t2-to of about The laser-active medium is irradiated with pump light for 100> s. Just before the end of the During the pumping process, the voltage designated by U24 is applied at time t1 placed the Pockels cell, which is then used to build up the laser pulse shown in Fig. 3c leads.

The present invention is particularly useful in devices for Generation of high-frequency acoustic oscillations in the form of short acoustic impulses high energies proven.

Since the operation of such devices, for example, from the DE-PS 1 772 530 is known, a corresponding description can be omitted here.

If ruby lasers are used instead of the YAG lasers mentioned above, can due to the already existing polarization of the laser light, the linear polarizer 4 (Fig. 1) are also omitted.

L e r s e i t e

Claims (4)

Claims laser arrangement with an electro-optical Q-switch, the one between the laser-active medium and the respectively impermeable Resonator mirror arranged electro-optical component and between this Component and the laser-active medium ar) ordered linear polarizer, d a d u r c h e k e n n -z e i c h n e t that either between the electro-optical Component (6) and the linear polarizer (4) or between the electro-optical component (6) and the opaque resonator mirror (2) a / 4-plate (5) is arranged. 2. Arrangement according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the / 4 plate (5) as a window of the electro-optical component (6) is trained. 3. A method of operating the arrangement according to claim 1 or 2, d a d u r c h e k e n n n n z e i c h n e t that the electro-optical component (6) A voltage is only applied when the stored in the laser-active medium (1) Energy is to be emitted as a light pulse; and that the tension required is chosen such that due to the birefringence caused by the stress, a phase difference of / t / 4 between ordinary and extraordinary steel results. 4. Use of the arrangement according to claim 1 and the method according to Claim 2 for generating short, high-energy acoustic pulses by irradiation a solid or liquid material with laser light.