Concepts in Confocal Microscopy
Review Articles
Introduction to Confocal Microscopy
Confocal microscopy has advantages over widefield optical microscopy, including the ability to eliminate or reduce background information away from the focal plane and collect serial optical sections from thick specimens.
Fluorophores for Confocal Microscopy
Biological laser scanning confocal microscopy relies on fluorescence as an imaging mode due to the high degree of sensitivity afforded by the technique coupled with the ability to specifically target structural components.
Laser Scanning Confocal Microscope Simulator
Explore multi-laser fluorescence and differential interference contrast (DIC) confocal imaging in this tutorial.
Fluorescence Excitation & Emission Fundamentals
Fluorescence is a member of the luminescence family of processes in which molecules emit light from electronically excited states created by either a physical, mechanical (friction), or chemical mechanism.
Spectral Bleed-Through Artifacts in Confocal Microscopy
Spectral bleed-through of fluorescence emission occurs due to the broad bandwidths and asymmetrical spectral profiles exhibited by fluorophores, can be a problem in laser scanning confocal fluorescence microscopy.
Choosing Fluorophore Combinations for Confocal Microscopy
Explore the matching of dual fluorophores with efficient laser excitation lines and determination of the bleed-through level that can be expected as a function of the detection window wavelength profiles in this tutorial.
Interference Filters for Fluorescence Microscopy
The utilization of specialized and advanced thin film,interference filtershave enhanced the versatility of fluorescence techniques, far beyond the capabilities of the earlier use of gelatin and glass filters.
Non-Coherent Light Sources for Confocal Microscopy
Reviewed in this article are the merits and limitations of non-coherent light sources in confocal microscopy, both as light sources for confocal illumination and as secondary sources for widefield microscopy in confocal microscopes.
Resolution & Contrast in Confocal Microscopy
In a fluorescence microscope, contrast is determined by the number of photons collected, the dynamic range of the signal, optical aberrations of the imaging system, and the number of picture elements (pixels) per unit area.
Introduction to Lasers
Lasers are designed to produce and amplify this stimulated form of light into intense and focused beams. The word laser was coined as an acronym for Light Amplification by the Stimulated Emission of Radiation.
Laser Systems for Confocal Microscopy
The lasers used in laser scanning confocal microscopy are high-intensity monochromatic light sources, which are useful for techniques including optical trapping, lifetime imaging studies, and total internal reflection fluorescence.
Acousto-Optic Tunable Filters (AOTFs)
Several benefits of the AOTF combine to enhance the versatility of the latest generation of confocal instruments, and these devices are becoming popular for control of excitation wavelength ranges and intensity.
Confocal Microscope Objectives
The contrast and resolution of fine specimen detail, the depth within the specimen from which information can be obtained, and the lateral extent of the image field are all determined by the objective.
Confocal Microscope Scanning Systems
Three principal scanning variations are employed to produce confocal microscope images. Each technique has features that make it advantageous for specific confocal applications, but limit the usefulness in others.
Signal-to-Noise Considerations
In any quantitative assessment of imaging capabilities utilizing digital microscopy techniques, including confocal methods, the effect of signal sampling on contrast and resolution must be considered.
Electronic Light Detectors: Photomultipliers
In laser scanning confocal microscopy, the collection of secondary emission gathered by the objective can be accomplished by classes of photosensitive detectors, including photomultipliers, photodiodes, andCCDs.
Electronic Imaging Detectors
Over the past several years, the rapidly growing field of fluorescence microscopy has evolved from a dependence on traditional photomicrography using emulsion-based film to one in which electronic images are the output of choice.
Applications in Confocal Microscopy
Applications available to laser scanning confocal microscopy includes a variety of studies in neuroanatomy and neurophysiology, as well as morphological studies of a wide spectrum of cells and tissues.
Fluorochrome Data Table
As a guide to fluorophores for confocal and widefield fluorescence microscopy, the table presented lists many commonly-used fluorochromes, with their respective peak absorption, and emission wavelengths.
Glossary of Terms in Confocal Microscopy
Featured here are resources provided as a guide and reference tool for visitors who are exploring the large spectrum of specialized topics in fluorescence and laser scanning confocal microscopy.
Confocal Microscopy Interactive Tutorials
Discover and explore the gallery of various interactive Java tutorials designed to explain and aid students visually in understanding complex and difficult concepts in confocal microscopy.
References and Web Resources
Concepts in Confocal Microscopy Web Resources
Laser scanning confocal microscopy (LSCM) is a tool that has been extensively utilized for inspection of semiconductors, is now becoming a mainstream application in cell biology. The links provided in this section from The Evident Scientific Microscopy Resource Center web site offer tutorials, instrumentation, application notes, technical support, glossaries, and reference materials on confocal microscopy and related techniques.
Confocal Microscopes for Life Science Solutions
FV5000
Confocal Laser Scanning Microscope
- Extraordinary clarity, speed, and reliability driven by groundbreaking innovations
- SilVIR™ detectors deliver photon-level quantitation, exceptional sensitivity, and ultra-high signal-to-noise
- Unmatched dynamic range captures the full signal spectrum and prevents saturation
- High-speed 2K resonant scanning and high-density 8K galvo scanning in one platform
- FLUOVIEW Smart™ software simplifies operation with intuitive controls and AI-powered automation
- TruResolution™ auto correction collar optimizes focus for over 20 objectives
- Modular design supports up to 10 laser lines and future multiphoton upgrades
- Laser Power Monitor (LPM) ensures stable illumination and reproducible results over time
FV5000MPE
Multiphoton Laser Scanning Microscope
- Compact fiber-pigtailed lasers enable deep, quantitative imaging in scattering tissue
- One-, two-, or three-line simultaneous MPE laser excitation for millimeters deep imaging
- SilVIR™, TruAI, and TruSight™ technologies deliver outstanding signal-to-noise and clarity
- MPE-optimized objectives, TruResolution™ auto correction collar, and automated IR laser alignment maintain sharp focus
- Available as an FV5000 system upgrade or a complete MPE system
- Fully tunable laser configurations available for more advanced multiphoton applications
Multiphoton Laser Scanning Microscope – FV4000 MPE
- Acquire accurate, quantitative image data from the macro scale to subcellular structures
- Obtain more information from a single multicolor image
- Monitor neuron and other essential dynamics with high-speed imaging
FLUOVIEW Laser Scanning Microscope Solutions – SilVIR Detetor
- Combines a silicon photomultiplier and patented * fast signal processing for lower noise, higher sensitivity, and improved photon resolving capabilities
- High detection efficiency provides superior signal-to-noise to bring weak fluorescence to life
- Capture vivid fluorescence images with no offset adjustments
- Precisely quantify image intensity for more reliable data
*Patent number US11237047
LEXT OLS5500
Hybrid 3D Optical Profilometer
- Traceable surface measurements from the nanometer to micrometer scale
- Laser scanning microscopy (LSM), white light interferometry (WLI), and focus variation microscopy (FVM) in one award-winning platform
- First 3D optical profilometer to offer guaranteed accuracy and repeatability* for both LSM and WLI measurements
- WLI mode delivers up to 40x faster measurement throughput than conventional LSM
- Exceptional precision across surfaces with in-house engineered optics
- Intuitive interface and smart automation streamline operation for users of all levels
- AI-enhanced and high-throughput workflows with PRECiV™ software integration
*Based on Evident’s internal research as of October 2025. The guaranteed accuracy and repeatability apply only if the device has been calibrated according to the manufacturer’s specifications and is in defect free condition. Calibration must be performed by an Evident technician or an Evident-authorized specialist.
Confocal Laser Scanning Microscope for Material Analysis – LEXT OLS5100
- Guaranteed measurement accuracy of 3D surface shape at the submicron level*
- High-performance optics reduce aberration throughout the entire field of view
- High-resolution image stitching and fast scanning speeds to quickly acquire images
- User-friendly interface and intuitive software enabling operation by all user types