Oblique lightingForensics

20221224 — Dark-field microscopes show a light silhouette of an organism against a dark background.

Transmittedlighting

With normal bright field illumination, a specimen is evenly illuminated from all sides. When the light that illuminates the specimen is coming from one side, it is called oblique illumination. With oblique illumination, less light is shining directly through the specimen. In stead, the light rays are illuminating the specimen at an angle which gives a relief effect. This illumination technique is very old and is used to increase the visibility of difficult specimens.

I have experimented a bit with oblique illumination on the Leitz Dialux II, using the Leitz Fluotar 25/0.55 objective. The diatom Cymbella was used as a test-object and the oblique illumination was realised in 5 different ways:

With oblique illumination, both contrast and the visibility of fine details are enhanced. A pseudo 3-dimensional effect is created that gives depth to structures in the specimen thereby increasing visibility.

What isbouncelighting

For the following tests I used a slide of Pleurosigma angulatum and a Zeiss-Winkel achromat 40/0.65. For a 40/0.65 objective, Pleursigma angulatum is a critical object; with insufficient resolution due to incorrect settings, the pore structure of this diatom will not visible. It is therefore a good test specimen to check the resolving power of a 40/0.65 objective. The experiments were performed with a Zeiss Standard GFL using the 0.9 NA flip-top Abbe condenser. The oblique illumination was created with different methods, each time another part of the microscope was shifted. When experimenting with oblique illumination it is important that the field diaphragm and aperture diaphragm are fully opened. Furthermore, the use of a phase-telescope or Bertrand lens is strongly recommended. These tools are used to monitor and record the illumination at the back lens of the objective so that optimal settings can be repeated later. The degree to which a certain part of the microscope is shifted and the height of the condenser have a drastic effect on the results. It is best to experiment with this as much as possible. Figure 1 shows some parts of the Standard GFL that were used to alter the illumination.

Fig.4. Oblique illumination by tilting the condenser top lens (left, setting 5) or by positioning the filter holder in the light path (right, setting 6).

Frontlighting

The following images of Pleurosigma angulatum were made using different settings. The effect of the settings (numbered 1 to 6) on the illumination at the back lens of the objective as seen through a phase-telescope is shown in figure 5.

Fig.1. Methods to achieve oblique illumination. A: Darkfield stop of 18 mm in diameter in filter holder. B: Shifting the auxiliary lens. C: Shifting the filter holder. D: Tilted condenser top lens.

Pediastrum, photographed in bright field (left) and oblique illumination (right, single image) as described above. Objective: Carl Zeiss Apo 40/1.0. For the image with oblique illumination, the aperture of the objective was reduced to approximately 0.8 by means of the iris in the objective. Camera: Canon EOS 600D.

Fig.3. Oblique illumination by decentering the condenser (left, setting 3) or by shifting the auxiliary lens under the condenser (right, setting 4).

Oblique illumination enhances contrast and improves the visibility of fine details and can be achieved with simple means. There are many different ways to create oblique illumination and each method has it’s own characteristics. The depth of field can be increased considerably with oblique illumination. It gives a more spatial impression of the object than normal brightfield illumination and the visibility of some details will be enhanced. If you look at photos taken with oblique illumination, there may be a sudden reversal of the relief; cavities suddenly look like bulges. This is an optical illusion. It is good practice to always take a picture in brightfield and compare it with the image taken with oblique lighting.

I achieved the most satisfactory results by placing a lens on the light exit of the Zeiss Standard GFL. The lens I used for this came from a Carl Zeiss Jena (1.2 N.A.) Abbe condenser. I unscrewed the top lens and placed the bottom lens (the field lens) asymmetrically on the light exit. The condenser of the Zeiss Standard GFL is turned all the way up and the aperture diaphragm is fully opened. The field aperture of the light exit is also opened to the maximum. The field lens is then placed on the light exit and shifted until a satisfactory result is achieved. I set the position of the field lens in such a way that there is no strong illumination gradient in the image, while at the same time enough depth of field has to be created for the objects to appear with plasticity. With a little experimentation, results can look a lot like Differential Interference Contrast (DIC).

Oblique lightingphotography

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I personally find that in the experiment above the best contrast and resolving power was obtained by shifting the auxiliary lens (setting 4) or using a darkfield stop in the filter holder (setting 2). In my opinion, these two methods proved to be best in resolving the structure of Pleurosigma angulatum. On the other hand, decentering the condenser (setting 3) produced the least color artifacts and a nearly gradient-free oblique illumination was obtained.

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Obliqueillumination microscopy

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Experimenting with oblique illumination on a slide of Cymbella. A: normal brightfield illumination. 1-5: oblique illumination with the different methods described above.

Fig.2. Pleurosigma angulatum in normal bright field illumination (left, setting 1) and oblique illumination using a darkfield stop in the filter holder (right, setting 2). In the right image, the fine structure of this diatom is much more visible.

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Obliquelight examination

In addition to improved contrast and resolving power, oblique illumination has a positive effect on the depth of field. At the same time, a pseudo-relief is created which can be clearly seen in the following image.

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Oblique lightingexample

Arachnoidiscus ehrenbergii fotographed in brightfield (left) and oblique illumination (right). Objective: Zeiss-Winkel 25/0.45.

Fig. 5. Overview of the different settings. 1: Bright field illumination. 2: Darkfield stop. 3: Decentering the condenser. 4: Auxiliary lens shifted under condenser. 5: Tilted condenser top lens. 6: Filter holder positioned in light path. On the far right of the picture, the illumination at the back lens of the objective is seen, photographed using a phase telescope.

4: A diffuser was placed on the lamp-opening and on top of this a black disc was placed in a decentered way. The black disc was a course focussing knob of a microscope.

Method for obtaining oblique illumination by interfering with the light path at the lamp exit. The field lens of a Carl Zeiss Jena condenser was placed on the light exit of a Zeiss-Winkel Standard GF. The lens is shifted to the top left to create an oblique illumination.

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Oblique illumination can be achieved in many different ways. By simply holding a finger between the light source and condenser, already a kind of oblique lighting is achieved. In principle, any intervention in the light path that results in an uneven illumination of the specimen qualifies as oblique illumination. But some methods are better than others. A proven method for creating oblique illumination is the usage of a darkfield stop or a phase contrast condenser. Also, with an additional lens underneath the condenser, like for example an auxiliary lens, a nice oblique illumination can be created when the lens is shifted.