Leica microscopes offer phase contrast for the study of cells or tissues concerning various life-science and forensic applications. Phase contrast can also be useful for certain material and earth-science applications.

Darkfieldmicroscope

2022109 — Diffused light is light with an even concentration across the spread of its beam and can soften shadows and produce a more flattering image.

The knowledge portal of Leica Microsystems offers scientific research and teaching material on the subjects of microscopy. The content is designed to support beginners, experienced practitioners and scientists alike in their everyday work and experiments.

In practical use, one can manipulate the polarization state of laser light using polarizing optics, such as waveplates, to convert one polarization state to another or using polarizers to select a particular polarization state.

Bright fieldmicroscope principle

Portions of the ring-shaped light are diffracted by optically dense structures of the specimen and experience a negative phase shift of about λ/4. This phase-shifted, diffracted light bypasses the λ/4 plate. In contrast, the portion of the ring-shaped light that passes directly through the specimen non-deviated will hit the phase plate which causes a positive λ/4 phase shift. As the total difference in phase shift between the light diffracted by the specimen’s structures and that which passes through phase plate will be about λ/2, destructive interference will occur. Consequently, more optically dense structures will appear darker than those that are less optically dense.

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Whether a laser is p-polarized or s-polarized depends on the laser design and the components in the laser cavity. Some lasers may emit light with a random polarization state, while others, by design, may produce a specific polarization. Diode lasers, for example, often emit naturally polarized light due to the geometric shape of the gain region and cavity design.

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Bright fieldmicroscope advantages and disadvantages

The phase contrast method for microscopy was developed in the 1930s by the Dutch physicist Frits Zernike. After 1942, it became a widely used microscopy technique. In 1953, Zernike was awarded the Nobel Prize for Physics. For more details, refer to the articles: A Brief History of Light Microscopy – From the Medieval Reading Stone to Super-Resolution & Phase Contrast

P-polarized light can be preferentially transmitted or reflected by certain optical components, such as beamsplitters or polarizers. The reflection of p-polarized light at nonmetallic surfaces can be minimized at a certain angle of incidence known as Brewster's angle.

For forensic applications concerning the evidentiary investigation of paints, pigments, textiles, fibers, and human tissues, Leica microscopes offering phase contrast are very useful solutions.

P-polarization, short for parallel polarization, refers to light waves with the electric field polarized parallel to the plane of incidence. The plane of incidence is defined as the plane that spans the incident, reflected, and refracted rays. When the electric field component is parallel to this plane, it is p-polarized.

Most often biological specimens and tissues are observed with a phase contrast microscope. A large variety of biological specimens can be observed with phase contrast from fixed specimens to living cells and tissues. For examples, refer to the articles: Phase Contrast & Optical Contrast Methods

Phase contrast is an optical contrast technique for microscopy which makes unstained structures in the cells of biological specimens visible. Cell structures that appear transparent with brightfield illumination can be viewed in high contrast and rich detail using phase contrast. Differences in optical density between structures in the cell can cause light that interacts with them to attain a phase shift. This phenomenon is the basis of phase contrast. As a result, more optically dense structures will look darker than less optically dense ones.

Bright fieldmicroscope parts

Bright fieldmicroscope

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Bright fieldmicroscope image

A phase contrast microscope is similar to a conventional widefield microscope, except it uses an aperture in the shape of an annulus and a quarter-wave (λ/4) phase plate. The annular aperture is placed between the light source and condenser lens and the phase plate after the objective inside the microscope optics. Ring-shaped light that passes through the aperture is focused by the condenser onto the biological specimen to be observed.

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Leica microscopes capable of phase contrast make a difference for the study of transparent and colorless minerals, crystals, and polymers.

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S-polarization, short for senkrecht polarization or perpendicular polarization, occurs when the electric field vector is perpendicular to the plane of incidence. This orientation tends to have higher reflection coefficients at surfaces when compared to p-polarization.

Bright fieldmicroscope application

Bright fieldmicroscope diagram

A phase contrast microscope is similar to a conventional brightfield microscope, except it uses an annular aperture in front of the light source and a quarter-wave phase plate after the objective lens.  For more information, refer to the article: Phase Contrast

Brightfield microscopy normally only provides a low-contrast image of many transparent biological specimens where few details are distinguished. One way to enhance contrast with brightfield microscopy is to use selective stains, but such stains are often toxic to living cells. A phase contrast light microscope offers a way to view the structures of many types of biological specimens in greater contrast without the need of stains. The contrast method exploits differences in optical density between structures of a specimen that lead to a phase shift of the light that interacts with the specimen and its structures.

Laser light can be either p-polarized (parallel) or s-polarized (senkrecht/perpendicular), depending on the orientation of the electric field vector with respect to the plane of incidence, when the light is incident upon a reflective surface.

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Leica microscopes providing phase contrast are commonly used in life science research for the visualization, analysis, and documentation of biological structures and cellular processes.

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S-polarized light is reflected differently compared to p-polarized light, especially at angles far from normal incidence. These differences are exploited in various applications where the polarization of light is critical, such as in polarimetry or in reducing glare in imaging systems.