Cerna® Microscope for Epi-Fluorescence and Dodt Contrast with XY Translator
- Equipped with Microscope Translator, Six-Position
Epi-Illuminator Module, and Dodt Contrast Module - Ready to Accept Objectives, Cameras,
Filters, and Illumination Sources
Cerna® Microscope Kit 5
(Optical Table Not Included)
Dodt Gradient Contrast Image of a Mouse Retina Using a Cerna Microscope
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Features
- Microscope Translator Moves Support Rail Over 2" Range in Both X and Y
- Six-Position Epi-Illuminator and Dodt Contrast Modules Support Visible and NIR Imaging
- Epi-Illuminator Module Accepts Solis® High-Powered LEDs, Chrolis™ High-Power LED Sources, or Ø3 mm Liquid Light Guides
- Dodt Contrast Module Includes Visible and NIR LEDs
- Large and Open Working Space Underneath the Objective
- Ideal for Sample Apparatuses, Recording Chambers, and Micromanipulators
- Compatible with Thorlabs' and Major Manufacturers' Objectives, Scientific Cameras, Fluorescence Filters, and Illumination Sources
- Modular Design Allows User to Modify the Microscope's Optical Path
This Cerna® microscope configuration provides an optical path for experiments that require the ability to leave the specimen absolutely undisturbed on the workstation. It is highlighted by a microscope translator, which moves the entire optical path over a 2" range in both X and Y. This is ideal, for example, in highly sensitive patch clamp recordings, since it permits the field of view to move while letting the sample preparation remain stationary on the tabletop. In addition, this microscope offers a Dodt gradient contrast and brightfield module with visible and near-infrared (NIR) LEDs for illumination. This LED combination allows the user to visualize the morphology of thicker tissues with Dodt gradient contrast in the NIR, then immediately switch to visible fluorescence to monitor physiological changes without having to relocate the region of interest (ROI).
A dual-objective nosepiece lets you locate an ROI using a low-magnification objective and then image using a high-magnification objective. It is directly compatible with M32 x 0.75-threaded objectives, and we include adapters for M25 x 0.75- and RMS-threaded objectives. Motorized objective and manual condenser focusing modules, each with 1" of travel, provide fine-tuned positioning along the optical axis. The six-position epi-illuminator module is ideal for targeting spectrally separated fiducial markers. We have also equipped the microscope with a variable-magnification double camera port that lets two cameras be individually dedicated to reflected light imaging, epi-fluorescence, Dodt contrast, or other imaging modalities.
Unlike competing microscopes with similar capabilities, the Cerna platform's modularity lets the user quickly install and remove the microscope modules as needed for each experiment, providing a high degree of access and control. For example, when the trans-illumination modules are installed, in vitro samples can be studied using epi-fluorescence and Dodt contrast, as well as with basic widefield and brightfield illumination. To free room underneath the objective for large sample holding apparatuses, the trans-illumination modules can be removed, providing a path for in vivo studies.
To address a wide range of experimental parameters, Thorlabs offers seven Cerna microscope configurations, which are summarized in the table below. In addition, we can work with you to configure a microscope that meets your unique needs. To contact our team, please e-mail ImagingSales@thorlabs.com. We also offer Cerna components individually for custom modifications.
Cerna Microscopes | Kit 1 | Kit 2 | Kit 3 | Kit 4 | Kit 5 | Kit 6 | Kit 7 |
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Objective Holder | Single | Single | Single | Dual | Dual | Dual | Dual |
Epi-Illumination | 1 Cube | Up to 6 Filter Sets | 1 Cube | Up to 6 Filter Sets | Up to 6 Filter Sets | Up to 6 Filter Sets | Up to 6 Filter Sets |
Trans-Illumination | - | - | Brightfield (Visible) |
Dodt Contrast and Brightfield (Visible) |
Dodt Contrast and Brightfield (Visible and NIR) |
DIC Imaging and Brightfield (Visible and NIR) |
DIC Imaging and Brightfield (Visible and NIR) |
XY Motion | - | - | - | - | Microscope Translator |
- | Translating Platform |
Cerna® Microscope Kit 5
This Cerna microscope kit was designed from our line of modular components to provide several convenient features for imaging, highlighted below. We also offer a selection of microscope objectives, cameras, and illumination modules that can be used to complement this microscope configuration and customize it to your experiment. Details can be found on the Microscope Add-Ons tab. The Kit Components tab details the components used in this microscope configuration, as well as a link to each component's webpage, where additional information (such as mechanical drawings) is available.
Epi-Illumination
Add-Ons: Epi-Illumination
Features
- Six-Position Epi-Illuminator Module (Filter Sets Sold Separately)
- Compatible Light Sources
- Solis® High-Power LEDs (Requires SM2A56 Adapter)
- Chrolis™ High-Power LED Sources or Other Sources that Use Ø3 mm Liquid Light Guides (Requires LLG3A6 Adapter)
This microscope is able to target multiple fluorophores through the use of a six-position epi-illuminator module that couples light emitted by the illumination source into the imaging path, through the objective, and onto the sample. The epi-fluorescence generated by the sample passes through the module to the eyepieces and camera. A D3T female dovetail on the rear of the microscope accepts a wide range of white-light lamps. The illumination path includes AR-coated conditioning optics, a field stop diaphragm, and a shutter.
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This Cerna® microscope kit features an epi-illuminator module with a 6-position filter turret. The filter position is labeled on the knurled wheel that rotates the turret.
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The rotating turret accommodates up to six filter sets (not included).
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The back of the epi-illuminator module has a female D3T dovetail that can be adapted to accept LEDs and liquid light guides.
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For trans-illumination, this microscope kit features two LEDs for visible and NIR illumination, a diffuser and quarter annulus for the Dodt gradient, and a condenser.
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For Dodt contrast, the microscope ships with five quarter annuluses that are matched to specific objective NAs (0.3, 0.5, 0.65, 0.8, or 1.0).
Trans-Illumination (Dodt Gradient Contrast)
Features
- Supports Dodt Gradient Contrast and Brightfield Illumination in the Visible and NIR
- Manual Condenser Focusing Module with 1" Travel
- 0.78 NA Long-Working-Distance Condenser
This microscope kit incorporates our trans-illumination module for Dodt gradient contrast, which uses a tightly toleranced quarter annulus and a diffuser to generate the gradient that Dodt contrast requires. We pre-install a quarter annulus for an objective NA of 1.0 and also include quarter annuluses for objectives with NAs of 0.3, 0.5, 0.65, and 0.8. A manual condenser provides fine focusing control over a 1" travel range. Bright illumination in the visible and NIR regions of the spectrum is generated by the included illumination kit (Item # WFA1051), which uses Thorlabs' LEDs. Please see the full web presentation for additional information.
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The microscope translator attaches to the vertical support rail to enable 2" of travel in both X and Y.
Motion Control (Microscope Translator)
Features
- Translates Microscope Body Over 2" Range in Both X and Y
- Allows Field of View to be Moved while Sensitive Samples Remain Stationary on the Tabletop
For samples that require the utmost stability once they are prepared, our microscope translator clamps the 95 mm vertical support rail, translating it and all of the attached microscope modules over a 2" travel range in both X and Y. This provides fine repositioning of the field of view and greatly reduces the risk of breaking sensitive patches.
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The vertical support rail holds modules in the optical path such as the nosepiece, condenser, and trans-illumination module for Dodt contrast.
Microscope Body
Features
- Large Working Volume: Optical Path is 7.74" (196.5 mm) Away from Edge of Rail
- Linear Dovetail Surface Allows Modules to be Added and Removed
- 400 mm Body Height Provides Space for Dodt Contrast Module
- Motorized Objective Focusing Module with 1" Travel
- Mechanically Compatible with Thorlabs' 95 mm Rail Platforms
The 95 mm vertical support rail is the backbone of the Cerna microscope, providing stable long-term support and excellent vibrational damping. Its linear dovetail mounting surface allows modules to be removed when they are not needed, freeing additional workspace and opening the door to user customization. For additional rail heights, please see the full web presentation.
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A double camera port allows cameras to be individually dedicated to different imaging modalities.
Add-On: Widefield Viewing
Widefield Viewing
Features
- Variable-Magnification Double Camera Port for Independent Visible and NIR Cameras
- Fixed Magnification for Front Camera
- Variable Magnification for Rear Camera
- Trinoculars with 10X Magnification and Adjustable Interpupil Distance
This part of the microscope visualizes and records sample images in the visible and near-infrared (NIR) regions of the spectrum. Visible light, which is generated by fluorophores and fiducial markers, is directed to the front camera port, while NIR light, which is used in Dodt contrast, is directed to the rear camera port. For additional camera port and camera tube options, please see the full web presentation.
Add-On: Objectives
Objective Holder
Features
- Use Low Magnification to Find the Region of Interest, then High Magnification to Image
- Directly Compatible with M32 x 0.75-Threaded Objectives (Nikon)
- Compatible with M25 x 0.75-Threaded Objectives (Nikon) and RMS-Threaded Objectives (Olympus) using the Adapters
The dual-objective nosepiece offers direct compatibility with M32 x 0.75-threaded objectives. For convenience, we also have available two M32 x 0.75 to M25 x 0.75 thread adapters, which enable compatibility with objectives that use M25 x 0.75 threads, and two M32 x 0.75 to RMS thread adapters for compatibility with RMS-threaded objectives. Microscope objectives are available for purchase separately from Thorlabs, and we can also order other objectives outside our catalog upon request. For additional objective mounting options, please see the full web presentation. Keep in mind that the total system magnification will depend upon the objective chosen; see the Objective, Scan, and Tube Lens Tutorial for details.
This kit configuration is entirely constructed from our selection of modular Cerna® components. See the comprehensive list below for each included item.
Item # | Qty. | Description | Photo (Click to Enlarge) |
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Microscope Body | |||
CEA1400 | 1 | Cerna Microscope Body with Epi-Illumination Arm, 400 mm Tall | |
MMP2XY | 1 | Microscope Translator with 2" Travel in X and Y | |
MCMK3 | 1 | 3-Knob USB HID Joystick | |
MCM301 | 1 | Three-Channel Controller for Motorized Rigid Stands and PLS Series Stage | |
Widefield Viewing | |||
LAURE1 | 1 | Trinoculars with Eyepieces | |
TC1X | 1 | 1X Camera Tube with C-Mount | |
CSD1001 | 1 | Variable Magnification Double Camera Port | |
Epi-Illumination | |||
CSE2100 | 1 | Epi-Illuminator Module for Six Filter Sets (Filter Sets Not Included) | |
Condenser | |||
CSC2001 | 1 | LWD Condenser, 0.78 NA | |
Objective & Condenser Mounting | |||
CSN200 | 1 | Dual-Objective Nosepiece | |
CSA1400 | 1 | Mounting Arm for CSN200 Nosepiece | |
BSA2000 | 1 | Compact Condenser Mounting Arm with ±2.5 mm Travel per Adjuster | |
PLSZ | 1 | Motorized Module with 1" Travel, 95 mm Dovetail | |
PLSZ2 | 1 | Angle Bracket for Middle-Mounted Arms | |
ZFM1020 | 1 | Manual Condenser Focusing Module with 1" Travel | |
Trans-Illumination: Dodt Contrast Imaging | |||
WFA1100 | 1 | Dodt Contrast Module | |
WFA0150 | 1 | Transmitted Light Module Dovetail Clamp | |
Illumination Kits | |||
WFA1051 | 1 | Visible and NIR Illumination Kit | |
LEDD1B | 2 | T-Cube™ LED Driver | |
KPS201 | 2 | 15 V Power Supply Unit for a Single K-Cube™ or T-Cube™ | |
Objective Threading Adapters | |||
M32M25S | 1 | External M32 x 0.75 Threads and Internal M25 x 0.75 Threads | |
M32RMSS | 1 | External M32 x 0.75 Threads and Internal RMS Threads |
Application-Optimized Cerna Microscopes
Developed in collaboration with our colleagues in the field, the Cerna microscopy platform is uniquely modular and flexible, making it adaptable to a wide range of demanding experimental requirements. If you would like to work with our application specialists, engineers, and sales team to design your own microscope, please email ImagingSales@thorlabs.com.
Selected Accessories
In order to image with this microscope, it is necessary to add a scientific camera, an epi-illumination source, filter sets, objectives, and sample holders. It is often possible to improve the quality of your experimental data by carefully selecting accessories that complement your specific experiment. To that end, we have ensured that Cerna® microscopes are compatible with a wide range of accessories. The information below compares the Cerna-compatible components that are manufactured or sold by Thorlabs. We have also indicated when it is possible to use equipment designed by other manufacturers.
Content
- Scientific Cameras for Widefield Viewing
- Illumination Sources for Epi-Illumination
- Filter Sets for Epi-Fluorescence
- Objectives
- Sample Holders
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The camera port provides a fixed magnification for light from the sample.
Scientific Cameras for Widefield Viewing
- Visualize the Field of View at a Computer
- Any C-Mount Camera is Compatible with a Cerna Microscope
Thorlabs offers scientific cameras optimized for a range of imaging needs. Cameras allow the field of view to be displayed on a computer screen and saved for later reference. Viewing your sample from a computer also enables remote sample positioning using our motion control accessories (see below), allowing samples to be moved in sensitive setups without introducing additional vibrations from your hands.
This Cerna microscope configuration includes a camera tube, which provides a fixed magnification at the image plane.
Any camera with C-Mount (1.000"-32) threading is compatible with this microscope. We recommend the CS2100M-USB Quantalux® Scientific sCMOS Camera; see the table below for more details. For other options, please see our complete range of scientific cameras.
CS2100M-USB Specifications | |
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Product Photo (Click to Enlarge) |
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Sensor Type | Monochrome sCMOS |
Effective Number of Pixels (Horizontal x Vertical) |
1920 x 1080 |
Imaging Area (Horizontal x Vertical) |
9.6768 mm x 5.4432 mm |
Pixel Size | 5.04 µm x 5.04 µm |
Optical Format | 2/3" (11 mm Diagonal) |
Max Frame Rate | 50 fps (Full Sensor) |
Sensor Shutter Type | Rolling |
Peak Quantum Efficiency | 61% at 600 nm |
PC Interface | USB 3.0 |
Housing Dimensions | 2.77" x 2.38" x 1.88" (70.4 mm x 60.3 mm x 47.6 mm) |
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Secure a Liquid Light Guide to the Six-Position Epi-Illuminator Module with a D3T Dovetail-to-LLG Adapter
Illumination Sources for Epi-Illumination
- White Light Sources Illuminate the Field of View Through the Objective
- Available Options Include Solis® LEDs, Chrolis™ LED Sources, or Other Sources Coupled through Ø3 mm Liquid Light Guide
- Light is Tuned by Filter Sets for Specific Fluorophores (See Below)
The six-position epi-illuminator module that is included with this Cerna microscope kit requires a broadband white light source that emits across the visible region of the spectrum. Broadband emission makes it possible for the same microscope to stimulate fluorophores that have absorption wavelengths that are spectrally separated. Several filter sets aimed at common fluorophores are available below.
The Solis LED light sources have multiple wavelength emitting options, including broad sprectrum emission throughout the visible range. These LEDs are designed to be controlled by the DC20 or DC2200 drivers. The Solis LED is outfitted with collimating optics and can be mounted directly to the back of the epi-illuminator module using the SM2A56 dovetail adapter.
The Chrolis LED sources are user-configurable light engines that efficiently combine the output of six LEDs into a single liquid light guide (LLG). They are ideal for fluorescence imaging that requires up to six wavelengths of light. These sources are available in two pre-set configurations, as well as custom configurations; please see the full web presentation for more details. The Chrolis sources are compatible with the epi-illuminator module via our LLG3A6 adapter, which connects and collimates any Ø3 mm LLG to a female D3T dovetail; see image to the upper right.
SOLIS® LED Features
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Chrolis™ LED Source Features
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Filter Transmission Spectraa | ||
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Item # | Target Fluorophore | Transmission Graph (Click for Plot) |
MDF-BFP | BFP (Blue Fluorescent Protein) | |
MDF-GFP2 | Alexa Fluor® 488 | |
MDF-MCHAb | mCherry | |
MDF-MCHCb | mCherry | |
MDF-TOM | tdTomato |
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Thorlabs' MDF-GFP2 Filter Set
Filter Sets for Epi-Fluorescence
- Tune Epi-Illumination Source for the Excitation and Detection of Specific Fluorophores
- Up to Six Filter Sets can be Installed Simultaneously
- Thorlabs' Fluorescent Filter Sets Available
- Utilize Fluorescence Filters from Other Major Manufacturers
The epi-illumination module included with this microscope contains a turret that can hold up to six filter sets. The turret can be rotated by hand to switch between the filter sets. To learn more about the features of the CSE2100 Epi-Illuminator Module included with this microscope, please see its full web presentation.
The filter sets we offer, which consist of an excitation filter, an emission filter, and a dichroic mirror, come in the industry-standard sizes. For excitation and emission filters, the standard dimensions are Ø25 mm, and for dichroic mirrors, the standard dimensions are 25 mm x 36 mm. This allows Cerna microscopes to be compatible with filters from all major manufacturers.
Several popular filter sets are listed with their target fluorophores in the table to the right. Please see the full web presentation for the entire line of Thorlabs' filter sets.
Objectives
- Directly Accepts M32 x 0.75-Threaded Objectives (Nikon)
- Compatible with M25 x 0.75-Threaded Objectives (Nikon) and RMS-Threaded Objectives (Olympus) using Included Adapters
The nosepiece of this microscope contains M32 x 0.75 threads in two places, allowing it to hold two objectives simultaneously. The M32 x 0.75 thread standard is used by newer Nikon widefield microscope objectives and offers larger back apertures than previous standards.
For convenience, we include two M32 x 0.75 to M25 x 0.75 thread adapters and two M32 x 0.75 to RMS thread adapters. The M25 x 0.75 thread standard is most commonly used by Nikon objectives, while RMS threads are most commonly used by Olympus objectives. We stock several widefield Nikon objectives that use M25 x 0.75 threads, which are shown in the table below. Our in-stock selection is not exhaustive. If you would like to order a different objective from either Nikon or Olympus, please contact us.
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Slide Holder in a Cerna® Microscope
Sample Holders
- Rigid Stands Hold Samples Underneath and Around the Objective
- Designed for Slides, Petri Dishes, Well Plates, Recording Chambers, Micromanipulators, and Custom Inserts
- Translation Stages with 1" of X and Y Travel Available
- Fixed Arms Incorporate Fast XY Stage, Lens Tubes, and/or Cage Systems Directly into Optical Path
- CSA1000: For Our MLS203-1 Fast XY Scanning Stage
- CSA1001: For Ø1" Lens Tubes and 30 mm Cage Systems
- CSA1002: For Ø2" Lens Tubes and 60 mm Cage Systems
Thorlabs offers highly configurable solutions for mounting your sample beneath the objective of the Cerna microscope. Rigid stands are available with multiple platform styles that can accept slides, petri dishes, well plates, recording chambers, micromanipulators, and custom inserts. The included collar makes them lockable at a height and angle chosen by the user. We also manufacture translation stages for these rigid stands that provide motorized horizontal translation of the sample.
Our fixed arms attach directly to the dovetail that spans the height of the microscope body, allowing them to be positioned anywhere along the body height, putting the sample directly into the microscope's optical path, and taking advantage of the existing footprint of the scope. For a pre-configured sample holder solution, use the CSA1000 Fixed Arm with the MLS203-1 Fast XY Scanning Stage. This stage is compatible with our MZS500-E Piezo-Driven Insert, which adds high-resolution Z-axis adjustments. Alternatively, the CSA1001 and CSA1002 Fixed Arms are compatible with Thorlabs' extensive selection of optomechanical components, allowing custom sample holder configurations to be integrated into the microscope.
Several compatible options are outlined in the tables below. For our full range of rigid stand inserts and heights, please see their full web presentation.
Rigid Stands
Click to Enlarge MP15M(/M) Rigid Stand with Rectangular Insert Holder
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Click to Enlarge MPRC(/M) Recording Chamber Holder, MPP15 Post, and
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Click to Enlarge MP15(/M) Rigid Stand with Platform
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Fixed Arms
Click to Enlarge CSA1000 Fixed Arm
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Click to Enlarge CSA1001 Fixed Arm
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Click to Enlarge CSA1002 Fixed Arm
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Click on the different parts of the microscope to explore their functions.
Elements of a Microscope
This overview was developed to provide a general understanding of a Cerna® microscope. Click on the different portions of the microscope graphic to the right or use the links below to learn how a Cerna microscope visualizes a sample.
Terminology
Arm: Holds components in the optical path of the microscope.
Bayonet Mount: A form of mechanical attachment with tabs on the male end that fit into L-shaped slots on the female end.
Bellows: A tube with accordion-shaped rubber sides for a flexible, light-tight extension between the microscope body and the objective.
Breadboard: A flat structure with regularly spaced tapped holes for DIY construction.
Dovetail: A form of mechanical attachment for many microscopy components. A linear dovetail allows flexible positioning along one dimension before being locked down, while a circular dovetail secures the component in one position. See the Microscope Dovetails tab or here for details.
Epi-Illumination: Illumination on the same side of the sample as the viewing apparatus. Epi-fluorescence, reflected light, and confocal microscopy are some examples of imaging modalities that utilize epi-illumination.
Filter Cube: A cube that holds filters and other optical elements at the correct orientations for microscopy. For example, filter cubes are essential for fluorescence microscopy and reflected light microscopy.
Köhler Illumination: A method of illumination that utilizes various optical elements to defocus and flatten the intensity of light across the field of view in the sample plane. A condenser and light collimator are necessary for this technique.
Nosepiece: A type of arm used to hold the microscope objective in the optical path of the microscope.
Optical Path: The path light follows through the microscope.
Rail Height: The height of the support rail of the microscope body.
Throat Depth: The distance from the vertical portion of the optical path to the edge of the support rail of the microscope body. The size of the throat depth, along with the working height, determine the working space available for microscopy.
Trans-Illumination: Illumination on the opposite side of the sample as the viewing apparatus. Brightfield, differential interference contrast (DIC), Dodt gradient contrast, and darkfield microscopy are some examples of imaging modalities that utilize trans-illumination.
Working Height: The height of the support rail of the microscope body plus the height of the base. The size of the working height, along with the throat depth, determine the working space available for microscopy.
Cerna Microscope Body
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Body Details
Microscope Body
The microscope body provides the foundation of any Cerna microscope. The support rail utilizes 95 mm rails machined to a high angular tolerance to ensure an aligned optical path and perpendicularity with the optical table. The support rail height chosen (350 - 600 mm) determines the vertical range available for experiments and microscopy components. The 7.74" throat depth, or distance from the optical path to the support rail, provides a large working space for experiments. Components attach to the body by way of either a linear dovetail on the support rail, or a circular dovetail on the epi-illumination arm (on certain models). Please see the Microscope Dovetails tab or here for further details.
Illumination with a Cerna microscope can come from above (yellow) or below (orange). Illumination sources (green) attach to either.
Illumination
Using the Cerna microscope body, a sample can be illuminated in two directions: from above (epi-illumination, see yellow components to the right) or from below (trans-illumination, see orange components to the right).
Epi-illumination illuminates on the same side of the sample as the viewing apparatus; therefore, the light from the illumination source (green) and the light from the sample plane share a portion of the optical path. It is used in fluorescence, confocal, and reflected light microscopy. Epi-illumination modules, which direct and condition light along the optical path, are attached to the epi-illumination arm of the microscope body via a circular D1N dovetail (see the Microscope Dovetails tab or here for details). Multiple epi-illumination modules are available, as well as breadboard tops, which have regularly spaced tapped holes for custom designs.
Trans-illumination illuminates from the opposite side of the sample as the viewing apparatus. Example imaging modalities include brightfield, differential interference contrast (DIC), Dodt gradient contrast, oblique, and darkfield microscopy. Trans-illumination modules, which condition light (on certain models) and direct it along the optical path, are attached to the support rail of the microscope body via a linear dovetail (see Microscope Dovetails tab or here). Please note that certain imaging modalities will require additional optics to alter the properties of the beam; these optics may be easily incorporated in the optical path via lens tubes and cage systems. In addition, Thorlabs offers condensers, which reshape input collimated light to help create optimal Köhler illumination. These attach to a mounting arm, which holds the condenser at the throat depth, or the distance from the optical path to the support rail. The arm attaches to a focusing module, used for aligning the condenser with respect to the sample and trans-illumination module.
Epi-Illumination Modules | Breadboards & Body Attachments |
Brightfield | DIC | Dodt | Condensers | Condenser Mounting | Light Sources |
Light from the sample plane is collected through an objective (blue) and viewed using trinocs or other optical ports (pink).
Sample Viewing/Recording
Once illuminated, examining a sample with a microscope requires both focusing on the sample plane (see blue components to the right) and visualizing the resulting image (see pink components).
A microscope objective collects and magnifies light from the sample plane for imaging. On the Cerna microscope, the objective is threaded onto a nosepiece, which holds the objective at the throat depth, or the distance from the optical path to the support rail of the microscope body. This nosepiece is secured to a motorized focusing module, used for focusing the objective as well as for moving it out of the way for sample handling. To ensure a light-tight path from the objective, the microscope body comes with a bellows (not pictured).
Various modules are available for sample viewing and data collection. Trinoculars have three points of vision to view the sample directly as well as with a camera. Double camera ports redirect or split the optical path among two viewing channels. Camera tubes increase or decrease the image magnification. For data collection, Thorlabs offers both cameras and photomultiplier tubes (PMTs), the latter being necessary to detect fluorescence signals for confocal microscopy. Breadboard tops provide functionality for custom-designed data collection setups. Modules are attached to the microscope body via a circular dovetail (see the Microscope Dovetails tab or here for details).
The rigid stand (purple) pictured is one of various sample mounting options available.
Sample/Experiment Mounting
Various sample and equipment mounting options are available to take advantage of the large working space of this microscope system. Large samples and ancillary equipment can be mounted via mounting platforms, which fit around the microscope body and utilize a breadboard design with regularly spaced tapped through holes. Small samples can be mounted on rigid stands (for example, see the purple component to the right), which have holders for different methods of sample preparation and data collection, such as slides, well plates, and petri dishes. For more traditional sample mounting, slides can also be mounted directly onto the microscope body via a manual XY stage. The rigid stands can translate by way of motorized stages (sold separately), while the mounting platforms contain built-in mechanics for motorized or manual translation. Rigid stands can also be mounted on top of the mounting platforms for independent and synchronized movement of multiple instruments, if you are interested in performing experiments simultaneously during microscopy.
This microscope configuration can be tailored to your particular imaging needs through the use of our kit functionality. Its components can be added all at once to the shopping cart using the "Add Kit" button at the bottom of the ordering area, or individually using the shopping cart icon next to each item. Items may be removed from the default item list by changing the value in the "Qty" box to 0 before clicking the "Add Kit" button. Once added, peruse our catalog of modular microscope components to further customize the microscope kit in your cart. A discount is offered when a sufficient number of components are purchased. Please see the Kit Components tab for additional information about each component in this microscope kit.