Abstract: The present invention relates to an illumination module for a microscope apparatus, comprising a plurality of monochromatic sources and a control device, wherein the control device is configured to control states of the plurality of the monochromatic sources, and the control device includes a selecting and switching module which realizes a switch among the plurality of monochromatic sources in response to an operation of the user. The design of the illumination module makes the microscope apparatus compact in structure, highly reliable, convenient in use, and extremely enhancing the work efficiency of the user. The present invention also relates to a method for controlling the illumination module, and a microscope apparatus comprising the illumination module.

Abstract: A microscope objective for imaging a specimen using a microscope, the microscope objective having a front lens enclosed by a surround and being designed for microscopy with an immersion liquid. In the microscope objective, the front lens and/or the surround thereof is provided with a coating which can be switched between a state which repels the immersion liquid and a state which does not repel the immersion liquid.

Abstract: A method for the microscopy scanning of a specimen. An immersion medium is used between a slide and a microscope objective, said immersion medium wetting a surface of the slide, and the microscope objective being relatively displaced over the surface of the slide for imaging. The surface is provided with a coating which repels the immersion medium.

Abstract: A microscope for imaging an object, comprising a lens assembly, which defines an optical axis and a focal plane perpendicular thereto, and correction optics, which are adjustable for adjustment to a depth position and which correct a spherical aberration on the lens assembly which occurs during imaging of the object at a specific depth position of the focal plane. The microscope may be used to determine a phase difference of radiation from a first lateral region and a second lateral region of the object, and to use a previously known connection between the phase difference and a modification of the spherical aberration caused thereby in order to determine an adjustment value of the correction optics, such that the spherical aberration is reduced when imaging the second region.

Abstract: A microscope for imaging an object, comprising a lens for imaging the object through an imaging beam path, a light source for generating illumination radiation, at least one optical element for coupling the illumination radiation into the imaging beam path such that a common beam path is formed between the optical element and the lens, wherein the imaging radiation path runs through the common beam path, and the illumination radiation is guided through the common beam path. The microscope also comprises a monitoring device for measuring an energy parameter of the illumination radiation, said monitoring device determining an energy parameter of radiation which is incident on the monitoring device, and a beam splitter device which is arranged in the common beam path upstream of the lens in the illuminating direction and couples measurement radiation out of the illumination radiation onto the monitoring device.

Abstract: A method for regulating a light source of a microscope that illuminates an object, said method including specifying an intended value of an energy parameter of illumination radiation on the object; producing illumination radiation; providing an objective for focusing illumination radiation onto the object; ascertaining a transmission property of the objective for the illumination radiation; output coupling a component of the illumination radiation upstream of the objective as measurement radiation and measuring an actual value of the energy parameter of the measurement radiation; providing a relationship between energy parameters of the measurement radiation and energy parameters of the illumination radiation on the object, and setting the light source in such a way that the actual value of the energy parameter measured for the measurement radiation corresponds to the intended value of the energy parameter according to the relationship.

Abstract: The invention relates to a zoom objective lens with continuously adjustable magnification, comprising five lens groups, where the first lens group, the second lens group and the fifth lens group are fixed in relation to an object. The third lens group and the fourth lens group are axially displaceable. The following conditions apply to the lens: the variable air gap between the second lens group and the third lens group decreases or has a turning point with a transition from a low to a high magnification ?, the refractive power of the second, third and fifth lens groups is positive and the refractive power of the fourth lens group is negative.

Abstract: An optical apparatus comprises an illumination module (100) comprising a carrier (110), which has at least one light-transmissive region (112), for example. The illumination module (100) comprises a plurality of light sources (111), which are arranged on the carrier (110).

Abstract: A microscope and a microscopy method for imaging an object, wherein use is made of a microscope comprising an objective which defines an optical axis and a focal plane perpendicular thereto, and an adjustable correction optical unit which, at the objective, corrects a spherical aberration occurring when imaging the object with a certain depth position of the focal plane. The method comprises the following steps: determining an actual type of object; reading a database in which refractive indices of different types of objects are stored in order to determine the refractive index of the object; using a relationship between the refractive index and the spherical aberration caused by the object in order to ascertain an adjustment value of the correction optical unit such that there is a reduction in the spherical aberration in the focal plane; adjusting the correction optical unit to the adjustment value; and imaging the object.

Abstract: The invention relates to a zoom objective lens with continuously adjustable magnification, comprising five lens groups, where the first lens group, the second lens group and the fifth lens group are fixed in relation to an object. The third lens group and the fourth lens group are axially displaceable. The following conditions apply to the lens: the variable air gap between the second lens group and the third lens group decreases or has a turning point with a transition from a low to a high magnification ?, the refractive power of the second, third and fifth lens groups is positive and the refractive power of the fourth lens group is negative.

Abstract: Methods and apparatuses for laser microdissection are provided. For example, by a user at least one first system parameter is adjusted, for example varied, and at least one second system parameter of the laser microdissection system is adjusted automatically by the laser microdissection system such that a cut line has a desired cut line parameter.

Abstract: Methods and apparatuses for laser microdissection are provided. For example, by a user at least one first system parameter is adjusted, for example varied, and at least one second system parameter of the laser microdissection system is adjusted automatically by the laser microdissection system such that a cut line has a desired cut line parameter.