Köhler illumination is a method of specimen illumination used for transmitted and reflected light (trans- and epi-illuminated) optical microscopy. Köhler illumination acts to generate an extremely even illumination of the sample and ensures that an image of the illumination source (for example a halogen lamp filament) is not visible in the resulting image. Köhler illumination is the predominant technique for sample illumination in modern scientific light microscopy. It requires additional optical elements which is less-expensive and may not be present in more simplistic light microscopes.
History and motivation
Prior to Köhler illumination critical illumination was the predominant technique for sample illumination. Critical illumination has the major limitation that the image of the light source (typically a light bulb) falls in the same plane as the image of the specimen, i.e. the bulb filament is visible in the final image. The image of the light source is often referred to as the filament image. Critical illumination therefore gives uneven illumination of the sample; bright regions in the filament image illuminate those region of the sample more strongly. Uneven illumination is undesirable as it can introduce artefacts such as glare and shadowing in the image.
Various methods can be used to diffuse the filament image, including reducing power to the light source or using an opal glass bulb or an opal glass diffuser between the bulb and the sample. These methods are all, to some extent, functional at reducing the unevenness of illumination however they all reduce intensity of illumination and alter the range of wavelengths of light which reach the sample.
In order to address these limitations August Köhler designed a new method of illumination which uses a perfectly defocused image of the light source to illuminate the sample. This work was published in 1893 in the Zeitschrift für wissenschaftliche Mikroskopie  and was soon followed by publication of an English translation in the Journal of the Royal Microscopical Society  .
The primary limitation of critical illumination is the formation of an image of the light source in the specimen image plane. Köhler illumination addresses this by ensuring the image of the light source is perfectly defocused in the sample plane and its conjugate image planes. In a ray diagram of the illumination light path this can be seen as the image-forming rays passing parallel through the sample.
Köhler illumination requires several optical components to function:
- Collector lens and/or field lens
- Field diaphragm
- Condenser diaphragm
- Condenser lens
These components lie in this order between the light source and the specimen and control the illumination of the specimen. The collector/field lenses act to collect light from the light source and focus it at the plane of the condenser diaphragm. The condenser lens acts to project this light, without focusing it, through the sample. This illumination scheme creates two sets of conjugate image planes, one with the light source image and one with the specimen. These two sets of image planes are found at the following points:
- Light source image planes:
- Lamp filament
- Condenser diaphragm
- Back focal plane of the objective
- The eyepoint
- Specimen image planes:
- Field diaphragm
- Intermediate image plane (the eyepiece diaphragm)
- The eye retina or camera sensor
The primary advantage of Köhler illumination is the extremely even illumination of the sample. This reduces image artifacts and provides high sample contrast. Even illumination of the sample is also critical for advanced illumination techniques such as phase contrast and differential interference contrast microscopy.
By adjustment of the field diaphragm the amount of light entering the sample can be freely adjusted without altering the wavelengths of light present, in contrast to reducing power to the light source with critical illumination. Adjusting the condenser diaphragm alters sample contrast. Furthermore altering the size of the condenser diaphragm allows adjustment of sample depth of field by altering the effective numerical aperture of the microscope. The role of the condenser diaphragm is analogous to the aperture in photography although the condenser diaphragm of a microscope functions by controlling illumination of the specimen, while the aperture of a camera functions by controlling illumination of the detector.
Testing for and setting up Köhler illumination
Microscopes using Köhler illumination must be routinely checked for correct alignment. The realignment procedure tests whether the correct optical components are in focus at the two sets of conjugate image planes; the light source image planes and the specimen image planes.
Alignment of optical components on the specimen image plane is typically performed by first loading a test specimen and bringing it into focus by moving the objective or the specimen. The field diaphragm is then partially closed; the edges of the diaphragm should be in the same conjugate image planes as the specimen, therefore should appear in focus. The focus can be adjusted by raising or lowering the condenser lenses and diaphragm. Finally, the field diaphragm is reopened to just beyond the field of view.
In order to test the alignment of components on the light source image plane, the eyepiece must be removed to allow observation of the intermediate image plane (the position of the eyepiece diaphragm) either directly or by using a phase telescope/Bertrand lens. The light source (e.g. the bulb filament) and the edges of the condenser diaphragm should appear in focus. Any optical components at the back focal plane of the objective (e.g. the phase ring for phase contrast microscopy) and at the condenser diaphragm (e.g. the annulus for phase contrast microscopy) should also appear in focus.
Optical microscopy techniques which use Köhler illumination as a basis:
- Bright field microscopy
- Phase contrast microscopy
- Dark field microscopy
- Differential interference contrast microscopy
- Polarized light microscopy
- Hoffman modulation contrast microscopy
- Köhler, August (1893). "Ein neues Beleuchtungsverfahren für mikrophotographische Zwecke". Zeitschrift für wissenschaftliche Mikroskopie und für Mikroskopische Technik 10 (4): 433–440.
- Koehler, August (1894). "New Method of Illimination for Phomicrographical Purposes". Journal of the Royal Microscopical Society 14: 261–262.