Raman Spectrometer 532/785/1064nm
Standard Spectrometer 200-1100nm
High Sensitivity UV Enhanced Spectrometer
BSI Cooled High Sensitivity Spectrometers
Large NA High QE Spectrometer 200-1450nm
Near Infrared Spectrometer 900-2500nm
More
Laser Point Scanning Confocal Microscope
Laser Line Scan Confocal Microscope
Spinning Disk Confocal Microscope
Structured Illumination Microscope
Confocal Raman Microscope
Fluorescence / PL Microscope
TCSPC System for SPAD (APD) Testing
Maskless Lithography UV Laser Writer
Laser Doppler Vibrometer 0.1Hz to 5Mhz
OCT Imaging System
X-ray/XRD Heating & Cryo Stage
Optical Heating & Cryo Stage
Electrical Probe Temperature Stage
Adjustable Electrical Probe Station
Tensile Strain Temperature Stage
Fiber Spectrometers (200nm to 5um)
X-Ray/XUV/VUV Spectrometers (1-300nm)
Hyperspectral Camera (220nm-4.2μm)
Multi-Spectral Camera (400-1000nm)
Spectrophotometer (240-2150nm)
Photomultiplier Tubes (PMTs)
Visible Single Photon Detector(SPD)
Infrared Single Photon Detector(SPD)
Photodiode PD (200nm-12um)
Pyroelectric Infrared Detectors (2-12um)
IR Beam Profiler (2-16um)
Terahertz Beam Profiler(1-18 THz)
Scanning Slit Beam Profiler (190-2500nm)
Photodiode Power Sensors 250-2500nm
Power Meter Console
Integrating Spheres (10mm-100mm)
Power Meter Adaptor & Accessories
1/8m Monochromator/Spectrograph
1/2m&1/4m Monochromator/Spectrograph
Monochromator Accessories
Filter & Wheel
LIV Test Systems for Laser Diode / LED
White Light Interferometer
Optical Coating CRD Reflectrometer
Optical Test Measurement System
RF Test Measurement System
CW Pigtail Laser Diode (400-1920nm)
CW Laser Diode Module (375-785nm)
CW Multi Wavelength Laser
DPSS Nanosecond Pulsed Lasers
DFB/FP Picosecond Laser (370-1550nm)
High-Power Femtosecond Solid-State Lasers
Nanosecond Pulse Fiber Laser(1064-2um)
Picosecond Pulse Fiber Laser (515nm - 2um)
Femtosecond Pulse Fiber Laser 780nm-2um
CW Fiber Laser System (405nm - 2um)
CW Narrow Linewidth Lasers (1530nm-2um)
C-Band Tunable Laser (1529 -1567nm)
L-Band Tunable Laser (1554 -1607nm)
Supercontinuum Fiber Lasers 450-2300nm
Femtosecond OPA (650 - 2600nm)
Short-pulse OPA (650 - 2600nm)
Broadband Femtosecond Laser 950-1150nm
Erbium Doped Fiber Amplifier
Ytterbium Doped Fiber Amplifier
Thulium-Doped Fiber Amplifier
Fiber Raman Amplifier
Semiconductor Optical Amplifier (SOA)
Microscope Light & Lamp (185 - 5500nm)
Single Wavelength LED Source(240-980nm)
Multi-wavelength LEDs Source (240-980nm)
ASE Light Sources (830-2000nm)
IR Emitter Chip (2-14um)
Light Field Sythesizer
Hollow-Core Fiber Compressor
High Powered Hollow-Core Fiber Compressor
Ultra-High Contrast 3rd-Order Autocorrelator
Coherent Ultrabroadband XUV Light Source
Enhanced Cavities for Laser Light
Terahertz Quantum Cascade Lasers(1-4.5Thz)
CW IR Quantum Cascade Lasers(3-12μm)
CW LWIR Quantum Cascade Lasers (10-17um)
Fluorescence Upright / Inverted Microscope
Biological Upright / Inverted Microscope
Phase Contrast Microscope
Dark Field Microscope
Polarizing Microscope
Metallographic Upright / Inverted Microscope
Smart 3D Stereo Microscope
USB Digital Microscope With Platform
Built-in Digital Microscope
Plan Apochromatic Objective
Industrial Plan Objective
Biology Plan Objective
Microscope CCD Camera (VIS-NIR)
Microscope CMOS Camera (UV-NIR)
UV & NIR Enhanced CMOS Camera
Hyperspectral Camera for Microscope
Multispectral Camera For Microscope
Microscope Light & Lamp
Soft X-Ray BSI sCMOS Camera (80-1000eV)
UV-NIR sCMOS Camera (200-1100nm)
Intensified CMOS Camera (200-1100nm)
Imaging Intensifier Tube
Full Frame CCD Camera for UV VIS NIR
Full Frame CCD Camera for VUV EUV X-ray
Full Frame In-vacuum CCD Cameras
Large Format In-vacuum CCD Cameras
HDMI Color CMOS Camera (Monitor)
High Speed Line Scan Camera
Large Format Camera
High Speed Large Format Camera
Frame Grabber
Infrared Pyrometers (-40-3000C)
Infrared linear Array Camera
Infrared Matrix Array Cameras
Blackbody Calibration Sources -15 to 1500°C
Short-Wave Infrared Camera (SWIR)
Mid-Wave Infrared Camera (MWIR)
Long-Wave Infrared Camera (LWIR)
Hyperspectral Camera LineScan (0.22-4.2um)
Hyperspectral Camera SnapShot(0.35-1um)
Optical Coherence Tomography (OCT)
Ultra-fast Pulse Generator for TCSPC
Multi-Channel Single Photon Counting Device
ID1000 Timing Controller
Photodetectors
General Purpose Pulse Generators
Medium and High Voltage Pulse Generators
High Speed Impulse Generator
Very High Speed Pulse Generators
Function Generators
Pulse Amplifiers
Pulsed Voltage
Pulsed Current
Phase Modulator
Amplitude Modulator
Education Kits
Acousto-Optic Modulators (AOM)
Acousto-Optic Tunable Filter (AOTF)
Acousto-Optic Deflector (AODF)
Acousto-Optic Frequency Shift (AOFS)
Phase Modulators
Acousto-optic Q-switch (AOQS)
TPX / HDPE Terahertz Plano Convex Lens
Off-Axis Parabolic Mirrors
Terahertz Hollow Retro Reflector
Terahertz Metallic Mirrors
ZnTe / GaSe Terahertz Crystals
Terahertz Beam Expander Reflection
Waveplates
Optical Isolator
Optical Polarizers
Beamsplitter Plate
Beamsplitter Cube
Dichroic Beamsplitters
Ultrathin Beamsplitter Plate
Bandpass Filters Fluorescence Microscope
Filters for Raman Spectroscopy
Narrow Filters for Laser
Filters for FISH
Filters for TIRF Microscope
Filters for FRET Microscope
Laser Crystals
Nonlinear Optical Crystals
Birefringent Crystals
Optical Crystals
Electro-optical Crystals
Micro-Channel Plate (MCP)
Micro-Channel Plate Assembly (MCP)
Fiber Optic Plates (FOP)
Micro Pore Optics
X-Ray Collimators
Optical Circulator
Filter Coupler
In-line Polarizer/PBC/PBS
WDM/DWDM/CWDM/Bandpass Filter
Faraday Rotator
In-situ Tensile Heating & Cryo Stage
Lens Mounts
Mirror Mounts
Filter Mounts
13mm Linear Stages
25mm Linear Stages
Rotation and Tilt Stages
Rack and Pinion Stages
Vertical Axis Stages
2-Axis Stages
Solid Vibration Isolation Optical Table
Solid Vibration Isolation Table
Pneumatic Optical table
Pneumatic Optical Table With Pendulum Rod
Honeycomb Optical Breadboard
Single Axis Motorized Piezo Stage
XY Motorized Piezo Stages
Multi Axis Motorized Piezo Stages
XY Microscope Piezo Stages
Vacuum Non-magnetic Piezo Stage
Nano Electric Actuator
The Multi-channel CW Multi-Mode lasers (4-in-1 lasers) include four different wavelengths (405nm/488nm/525nm/628nm) that integrate a laser diode, laser cavity, fiber-coupled optics, laser power supply, and LD current. It is designed for laser scanning confocal microscopy systems.
The 4-in-1 laser in a laser scanning confocal microscope system is a special laser system used in biomedical research and clinical applications. It combines four different wavelengths of lasers to provide a variety of excitation light sources. Laser scanning confocal microscopy is a high-resolution microscopy technique that obtains three-dimensional images of cells and tissues by scanning and focusing with a laser beam. The 4-in-1 laser provides different wavelengths of laser light to a laser scanning confocal microscope system to excite different fluorochromes or labels, allowing samples to be observed and studied under the microscope.
Different wavelengths of lasers can interact with different fluorochromes or markers, enabling the visualization and localization of different cellular and molecular structures. For example, the 405nm laser is typically used to excite UV dyes, 488nm is used for fluorescein and green fluorescent proteins, the 525nm laser is used for yellow fluorescent proteins and red fluorescent dyes, and the 640nm laser is used for fluorescent proteins and infrared dyes.
The advantage of the 4-in-1 laser system is that it provides a multi-wavelength laser light source that can excite multiple fluorochromes or labels at the same time, providing a more comprehensive picture in a single experiment. This has important implications for multicolor fluorescence imaging, colocalization, and co-expression studies of cells and tissues.
Laser power supply front panel
Laser power supply rear panel
Features
Multi-wavelength single-mode lasers can provide four different wavelengths of laser light sources. This makes it suitable for observing and analyzing the fluorescence signals of multiple markers or samples at the same time, improving experimental efficiency and data accuracy.
The laser light source of this laser system has a narrow spectral width and high spectral quality, which is conducive to reducing the interference of stray light of the light source and providing clear images and accurate signals.
The laser system uses a multi-mode fiber output with good pattern quality and beam quality. This makes it suitable for high-resolution imaging, high-precision measurements, and other applications that require high beam quality.
The laser system has a high power output and excellent power stability. In the process of long-term experiments and data acquisition, the required laser power can be stably output, which ensures the reliability and consistency of experimental results.
The user can flexibly adjust the laser power according to the experimental needs and sample characteristics. This helps to avoid sample damage or overexposure while achieving the best image quality and signal intensity.
Application
Using the different wavelength lasers provided by the four-in-one laser, the position and distribution of cell organelles such as the nucleus, mitochondria, and Golgi apparatus can be labeled and observed, which help to study cell function and interactions.
Using the different wavelength lasers provided by the four-in-one laser, the fluorescence signals of multiple markers can be simultaneously observed and analyzed to understand their co-localization and co-expression in cells or tissues.
Using the laser light source provided by the four-in-one laser to excite specific fluorescent markers in neurons, such as calcium indicators, neuronal excitability and synaptic transmission processes can be observed and recorded through laser confocal microscope.
In cell culture models, the laser light source provided by the four-in-one laser can be used to observe and analyze changes in cell morphology and structure to evaluate he effects and efficacy of drugs on cells.
Using the laser light source provided by the four-in-one laser, the details of cell structures, pathological changes and tumor metastasis in tissue samples can be observed and analyzed, providing pathologists with more accurate diagnostic and treatment decision-making basis.
Product specifications and Brochures
Product Brochure Link:
Control Panel Description
Set the power switch ON the rear panel of the laser power supply to "ON".
The red power indicator is steady on, indicating that the power supply is connected.
The blue indicator "Power" and red Alarm indicator "Alarm" are on at the same time.
The red alarm indicator "alarm" will be automatically extinguished after three seconds
In operation
SpinDisk
Basic
Advance
405/445/470/520/
528/555/640(nm)
Inverted or
Upright
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Company
Light Analysis
Microscope
Light Sources
Imaging
Optics