Specialized Microscopy Techniques

Contrast Enhancing Techniques

Contrast in Optical Microscopy

With the assistance of Dr. Robert Hoffman, we review the problems of contrast enhancement with both amplitude and phase specimens and review techniques that have been developed to assist with specimen contrast.

Darkfield Microscopy

The following section discusses various aspects of the theory and practice of condenser design and other important concepts in both transmitted and reflected light darkfield microscopy.

Differential Interference Contrast

A mechanism for rendering contrast in transparent specimens, differential interference contrast (DIC) microscopy is a beam-shearing interference system in which the reference beam is sheared by a tiny amount.

Hoffman Modulation Contrast Microscopy

Learn more about Hoffman Modulation Contrast which was invented by Dr. Robert Hoffman. This contrast-enhancing technique serves to increase specimen visibility and contrast, especially for unstained and living specimens.

Oblique or Anaxial Illumination

Achieving conditions for oblique illumination, which has been employed to enhance specimen visibility since the dawn of microscopy, can be accomplished by a variety of techniques with a simple transmitted optical microscope.

Phase Contrast Microscopy

Phase contrast provides an excellent method of improving contrast in unstained biological specimens without significant loss in resolution, and is widely utilized to examine is widely utilized from inspection of cultured cell to examination of dynamic events in living cells.

Polarized Light Microscopy

Polarized Light Microscopy exploits optical properties of anisotropy to reveal detailed information about the structure and composition of materials, which are invaluable for identification and diagnostic purposes.

Rheinberg Illumination

First described around the turn of the century by British microscopist Julius Rheinberg, this technique provides beautiful high-contrast colored images of unstained specimens.

Introduction to Confocal Microscopy

Confocal microscopy offers the ability to control depth of field, elimination or reduction of background information away from the focal plane, and the capability to collect serial optical sections from thick specimens.

Applications in Confocal Microscopy

The range of applications available to Laser Scanning Confocal Microscopy include a variety of studies in neuroanatomy, neurophysiology, as well as morphological studies of a wide spectrum of cells and tissues.

Introduction to Laser Scanning Microscopes

Learn all about laser scanning microscopes, including their advantages, disadvantages, and the types of images they can produce.

Near-Field Scanning Optical Microscopy

For ultra-high optical resolution, near-field scanning optical microscopy (NSOM) is currently the photonic instrument of choice. Near-field imaging occurs when a sub-micron optical probe is positioned a very short distance from the sample and light is transmitted through a small aperture at the tip of this probe.