DE2236505A1 - DEVICE FOR WAVELENGTH SELECTION IN BROADBAND EMITTING LASERS - Google Patents

Description

Device for wavelength selection with broadband emitting Lasers The invention relates to an optical resonator for frequency selection at optical transmitters with broadband emitting stimulable media, in particular with organic dye media, where between the stimulable medium and one of the two mirrors delimiting the optical resonator a lens and Perforated aperture existing Riohtungsfilter as well as a component of larger cross-section provided is which by reflection the pinhole diaphragm in itself images according to the main patent DP ... (patent application P 20 51 528.4-53).

This optical resonator is characterized by the fact that for the purpose the increase of the spectral resolution by means of extra-axial beam guidance the common optical axis of directional filter and the component forming the pinhole diaphragm shifted parallel to the geometric axis of the timulatable medium is and that, in addition, the component reproducing the pinhole diaphragm is a large chromatic one Has longitudinal deviation with a small opening error and for the purpose of frequency selection is arranged displaceably.

It is the object of the present invention to provide a convenient and indicate advantageous Neiterbildung of the optical resonator according to the main patent. This is characterized by the fact that the optical axis of the pinhole is in itself imaging component opposite the common optical axis of stimulable Medium and Hichtung filter at an angle: is inclined and that, moreover, that the Orifice plate in the reproducing component has a large longitudinal chromatic deviation has a small opening error and can be moved for the purpose of frequency selection is arranged.

The embodiments of the component imaging the pinhole diaphragm are here the same as in the main patent, i.e. it can either consist of a lens system large longitudinal chromatic aberration and small aperture error exist before an autocollimation mirror that delimits the optical resonator is arranged, or it consists of an interferometrically-holographically produced Fresnel's Zone mirror with wavelength-dependent focal length.

Embodiments of the additional invention are shown in the accompanying drawing and are described in more detail below.

1 shows the schematic representation of an optical resonator, in which the component focussing with the wavelength-dependent focal length consists of a There is a lens system, which is followed by an autocollimation mirror; Fig. 2 the schematic representation of an optical resonator, in which the wavelength-dependent Focal length focusing component made from an interferometric holographic manufactured Fresnel zone mirror consists.

In detail, 1 is denoted by 1 in the figures of the accompanying drawing The mirror delimiting the stimulable optical resonator from the left, with 13 a Excitation light source for the dye laser, with 2 the laser cuvette with the stimulable Medium and with 3 and 4 one consisting of a converging lens and a pinhole diaphragm Directional filter referred to as having a radiation-widening effect. With 8 is a chromatic lens system with a wavelength-dependent focal length and with a 9 behind it, the optical resonator designated by the right limiting autocollimation mirror. The lens system 8 and the mirror 9, which the aperture 4 in the light of the desired Mapping the wavelength on itself is used to tune and narrow the emission band displaceable along its optical axis 11a in the directions of arrows 14 and 15. the common optical axis of stimulable medium 2 and directional filter 3, 4 is designated by 12.

In FIG. 2, 10 an interferometric-holographic is produced Fresnel zone mirror marked. It is in the direction of arrow 14 along its axis lla movable.

The limiting mirror 1, the laser cuvette 2 with the excitation light source 13 as well as the directional filter consisting of a converging lens 3 and the pinhole 4 can be designed as a structural unit, which means that the subsequent adjustment work is considerable is relieved.

Claims (3)

Expectations 1. Optical resonator for frequency selection with optical transmitters broadband emitting stimulable media, especially with organic dye media, at the one between the stimulable medium and one of the two optical resonators limiting mirrors a directional filter consisting of a lens and a pinhole diaphragm as well as a component of larger cross-section is provided, which by reflection the pinhole maps in itself, according to DP ... (patent application P 20 51 328.4-33) at the the radiation emanating from the resonator for the purpose of increasing the spectral resolution the directional filter and the off-axis component reproducing the pinhole diaphragm interspersed, characterized in that the optical axis (lla) of the pinhole (4) in the imaging component (8, 9) opposite the common optical axis (12) of stimulable medium (2) and directional filter (3, 4) at an angle ot is inclined and that, in addition, the component (8) depicting the perforated diaphragm (4) has a large longitudinal chromatic deviation with a small aperture error and is arranged displaceably for the purpose of frequency selection. 2. Optical resonator according to claim 1, characterized in that the component reproducing the perforated diaphragm (4) from a lens system (8) large longitudinal chromatic aberration and a small opening error that occurs in front of a den optical resonator limiting autocollimation mirror (9) is arranged. 3. Optical resonator according to claim 1, characterized in that the component reproducing the perforated diaphragm (4) from an interferometric holographic h produced Fresnel zone mirror (10) with wavelength-dependent focal length consists.