Phase filters for a scanning microscope

What is claimed is: 1. An optical device comprising: a focusing optic that focuses a light beam in a focal plane at a location of a sample; at least two phase filters each selectively forming a focus of the light beam and effecting a phase shift of at least a part of the light beam; and a support being a filter wheel with a center and a radius, said support supporting the at least two phase filters arranged in a ring around the center of the support wherein, in order to position a midpoint of one of the at least two phase filters to be congruent with a midpoint of a pupil of the focusing optic, said support is rotated about the center and in relation to an optical axis by a motor and moved in a linear direction along a plane of the support by a linear adjustment mechanism. 2. The optical device according to claim 1 , wherein the linear adjustment mechanism is a fine adjustment screw. 3. The optical device according to claim 2 , wherein the positioning of the phase filter along the optical axis of the light beam can be controlled electronically by a computer. 4. The optical device according to claim 1 , wherein the filter wheel support is implemented as a glass substrate to which the phase filters are applied. 5. The optical device according to claim 4 , wherein there is a position on the filter wheel support, passage through which does not influence the wavefront of the light. 6. The optical device according to claim 5 , wherein the position is an empty position in which there is no phase filter. 7. The optical device according to claim 1 , wherein a sensor is provided for setting a rotational position of the filter wheel support. 8. The optical device according to claim 7 , wherein the sensor is implemented as a combination of a magnetoresistive sensor and a magnetic pole wheel that is directly mounted to the filter wheel support. 9. The optical device according to claim 1 , wherein the filter wheel support is adjusted by means of an algorithm in a computer. 10. The optical device according to claim 1 , wherein the phase filters are implemented such that they effect an increase in resolution in at least one of an axial and a lateral direction. 11. The optical device according to claim 1 , wherein the phase filters are located in a pupil of a microscope objective or in a plane conjugated to it. 12. A scanning microscope comprising: a focusing optic that focuses a light beam in a focal plane at a sample location; at least two phase filters each selectively forming a focus of the light beam and effecting a phase shift of at least a part of the light beam; and a support being a filter wheel with a center and a radius, said support supporting the at least two phase filters arranged in a ring around the center of the support wherein, said support is rotated about the center and in relation to an optical axis by a motor and moved in a linear direction along a plane of the support by a linear adjustment mechanism. 13. The scanning microscope according to claim 12 , wherein the linear adjustment mechanism is a fine adjustment screw. 14. The scanning microscope according to claim 13 , wherein the filter wheel support is implemented as a glass substrate to which the phase filters are applied. 15. The scanning microscope according to claim 13 , wherein there is a position on the filter wheel support that does not influence the wavefront of the light. 16. The scanning microscope according to claim 15 , wherein the position is an empty position in which there is no phase filter. 17. The scanning microscope according to claim 12 , wherein the microscope is a STED microscope with an excitation and a de-excitation laser, and the at least two phase filters are provided for the de-excitation laser. 18. The scanning microscope according to claim 12 , wherein the light beam is a laser light beam and the phase filters are selected depending on the laser used. 19. The scanning microscope according to claim 18 , wherein the microscope is a STED microscope with an excitation and a de-excitation laser, and the phase filters are provided for the de-excitation laser.