Microscopy Flashcards
is defined as the amount of detail seen in an image or microscope. It involves the fineness, sharpness, and clarity of the produced image.
Resolution
is defined as the process of enlarging something only in appearance and not its physical appearance. It is the ability of the microscope to scale up the visuals or images produced to see more details.
Magnification
purpose of the oil
is to eliminate or lessen two (2) refractive surfaces which will increase the magnification to 1000 times or greater without affecting the resolution of the image.
two or more lenses produce a dark image. The image that can be seen can be formed mainly through light absorption of the specimen.
Brightfield
Only light that has been reflected or refracted off the specimen may reach the eye since the light stop prevents light from traveling straight from the illuminator to the objective lens.
Darkfield
This method is utilized without staining and uses refraction and interference that is caused by the structures of the specimen. It creates the images by converting wavelengths of the light rays passing through the sample.
Phase- contrast
When the beams pass specimen or specimen-free space, they are added and effects of the specimens cause differences in the interference patterns generated by the 2 added beams.
Differential interference contrast
It uses fluorescent chromophores called fluorochromes, which are capable of absorbing energy from a light source and then emitting this energy as visible light. Finally, the filtered fluorescent emission is sent to a detector where the image can be digitized.
Fluorescence
uses a laser to scan multiple z-planes sequential and capable of controlling depth of field. Image clarity is more enhanced by a narrow aperture that reduces background information away that is not from the z-plane.
Confocal
It allows electrons to travel through a vacuum inside the microscope, then the electrons are converted into a very thin beam in order to focus directly on the specimen.
TEM
Images form usually from electrons that are knocked off of specimens by a beam of electrons. This results in creating a three dimensional with high quality and detailed images.
SEM
Uses a probe that moves horizontally above the surface of the specimen as a constant voltage bias creates the potential for an electric current between the probe and the specimen.
Scanning Tunneling
we can view the surface mainly to a quantum mechanical concept called as tunneling. a level of precision appropriate for single atoms.
Scanning Tunneling
It helps to view and provide images of micro-and nanoparticles and thin specimens. As it uses a focused beam of high-energy electrons to generate a variety of signals at the surface of solid specimens, such as secondary electrons, backscattered electrons, and X-rays.
SEM
It allows us to observe details of thin specimens and internal structures such as organelles, membranes, etc.
TEM
