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High Resolution Single Grating Monochromator| SIMTRUM Photonics Store

Products / Light Analysis /Spectrometers /Monochromator & Spectrograph /High Resolution Single Grating Monochromator /
High Resolution Single Grating Monochromator
Overview Specifications Software Q&A Related Products Order Now!
SIMTRUM'S monochromator adopts asymmetric C-T optical path and anti-wise design to improve the symmetry of the spectral line and optical resolution. The sinusoidal transmission mechanism adopts precision grinding screw to ensure the accuracy and repeatability of the spectrum. At the same time, it is equipped with nitrogen charging interface to enable it to be used in the ultraviolet and near infrared range. It is widely used in spectral analysis, material research, laser tuning and other fields, and has important application value in scientific research, industry and environmental monitoring.

The series is available in both motorized and manual models, with the motorized monochromator being more suitable for professional laboratories that require high accuracy, frequent adjustment and automation. At the same time, there are two types of optical path to choose from: that is, choose the parallel or vertical design of the optical outlet, the parallel design is suitable for simpler optical design, the system stability is good, the beam width is large, suitable for general spectral analysis. The vertical design is suitable for compact devices and high resolution applications that require more calculation and adjustment of optical elements and can provide finer control in spectral analysis.

 

Features

  • Long service life
  • High optical resolution
  • Hyperspectral accuracy
  • Wide spectral coverage
  • Hyperspectral repeatability

Application

  • Laser tuning
  • Spectral analysis
  • Materials research
  • Optical experiments
  • Fluorescence and absorption spectrum measurement
 
Mechanical Diagram

LA-SF01-HRSG-VD

LA-SF01-HRSG-PD

LA-SF01-HRSG-VS

LA-SF01-HRSG-PS

 

LA-SF01-HRSG-VD:Vertical inlet and outlet, Motor
LA-SF01-HRSG-PD:Parallel inlet and outlet, Motor
LA-SF01-HRSG-VS:Vertical inlet and outlet, Manual
LA-SF01-HRSG-PS:Parallel inlet and outlet, Manual


Product specifications

Focal Length F/# Stray Light Grating Size Standard Grating Slits Height Slits Width Mini Step Size Weight
300 mm F/4.8 5*10^-4 55*55 mm^2 1200 g/mm,λp=500 nm 14 mm 10μm-3mm
 0.0625 nm
(1200 g/mm)		 390*278*204 17Kg(Motor);
16Kg(Manual)
 
Grating Parameters
Grating Type Linear Dispersion (nm/mm) Accuracy (nm) Repeatability (nm) Resolution (nm) Theoretical spectral range (nm) Mechanical spectral range (nm)
1200 g/mm,λp=250 nm 2.7 0.2 0.1 0.1 185-500 0-1100
1200 g/mm,λp=300 nm 200-600
1200 g/mm,λp=500 nm 330-1000
600 g/mm,λp=500 nm 5.4 0.4 0.2 0.2 330-1000  
600 g/mm,λp=750 nm 500-1500
600 g/mm,λp=1000 nm 660-2000
600 g/mm,λp=1250 nm 830-2200
300 g/mm,λp=500 nm 10.8 0.8 0.4 0.4 330-1000 0-4400
300 g/mm,λp=1250 nm 830-2500
300 g/mm,λp=1800 nm 1200-3600
300 g/mm,λp=3000 nm 2000-4400
150 g/mm,λp=4000 nm 21.6 1.6 0.8 0.8 2600-8000 0-8800
 
 

Single Grating Monochromator application software and Ocx control

Single Grating Monochromator application software and Ocx control color meter application software, its functions are as follows:

  • Can be applied to Windows 7 or WindowsXP operating system
  • Wavelength selection, wavelength scanning, parameter setting/reading, spectral line scaling, data printing/storage, etc
  • Scan parameters can be set and scan in frequency or time domain
  • Multiple save file formats (.tee/.bmp/.jpg/.xls/.txt, etc.)
  • Instrument original parameter backup and recovery
  • Control 7IMSU.ocx integrates various functions to facilitate users to carry out secondary development

Q: What is the difference between parallel exit type and vertical exit type monochromators?

A:The only difference between the parallel exit type and the vertical exit type is the exit direction. Since the monochromator is not a square structure, the parallel exit type monochromator has an additional mirror on the basis of the vertical exit type monochromator. Therefore, there are two output options when in use: long side output and short side output.

 

Q: What is the difference between motorized monochromators and manual monochromators?

A:Motorized monochromators are driven by an upper computer to adjust the wavelength automatically. They usually have higher wavelength accuracy, resolution, faster scanning speed, and better repeatability. Manual monochromators have lower accuracy and repeatability and are suitable for experiments with lower precision requirements.

 

Q:What is the difference between double outlet monochromators and single outlet monochromators?

A:Compared with single outlet monochromators, the two exits of double outlet monochromators can be switched. According to the actual experimental needs, short side output or long side output can be selected.

 

Q:What performance advantages do double grating and triple grating monochromators have compared to single grating monochromators?

A:

  • High resolution. Multi-grating monochromators can more effectively disperse and analyze the wavelengths of incident light by using multiple gratings in the optical path. Different wavelengths of light can be diffracted and selected multiple times, thereby enhancing the resolution. Compared to single grating monochromators, multiple gratings play a reinforcing role in the spectral dispersion process, effectively improving the system's resolution. Especially when it is necessary to distinguish light sources with very close wavelengths, the multi-grating configuration can significantly improve the accuracy of wavelength selection.
  • Reduced stray light. Single grating monochromators often have stray light due to the limited diffraction angle of the grating and the influence of stray light. The multi-grating design utilizes the multiple diffraction and wavelength selection effects of multiple gratings to effectively reduce stray light. Using a dual-grating or triple-grating design can separate and suppress non-target wavelengths of light, reducing the influence of stray light and thereby improving the spectral purity of the output light. Especially for high-precision spectral measurements, reducing stray light is crucial for improving measurement accuracy.
  • Extended wavelength range. Multiple gratings combined can operate over a wider wavelength range without sacrificing resolution. Especially when the diffraction characteristics of the gratings allow them to cover a larger range of wavelengths. Multi-grating systems can perform high-precision spectral selection over a broader wavelength range, suitable for applications requiring wide-range scanning, especially in research and industrial applications, covering the UV, visible light to near-infrared (and even wider) range.
  • High sensitivity. The multi-grating design can effectively reduce light loss, especially compared to single-grating systems, by optimizing the beam path and enhancing diffraction efficiency through reasonable optical design. This can improve the system's sensitivity, especially for low-light signal or high-precision spectral measurement applications, where the multi-grating configuration can reduce signal attenuation while maintaining accuracy.
  • Strong anti-interference ability. Multiple grating configurations can effectively select and separate different wavelengths, avoiding inaccurate measurements caused by interference from other light sources or signals. Multi-grating monochromators have strong anti-interference capabilities in complex environments and are suitable for precise measurements in high-noise environments.

 

     Q: What are the similarities and differences between monochromator and spectrometer?

     A:Similarities: Monochromator and spectrometer are based on the principle of light dispersion, through the grating or prism to divide the light.

Difference: Monochromators only output specific wavelengths of light, and spectrometers can acquire the entire spectrum. In the detection process, the monochromator needs to scan gradually, while the spectrometer can collect the entire spectrum at once. Monochromators rely on slits to adjust wavelengths, while spectrometers use CCD/CMOS to acquire spectra.


Model Spectral Range Resolution Accuracy Repeatability Focal length F/# Slit Width
Standard Single Grating Monochromator 330~1000 nm up to 0.5 nm up to 0.5 nm up to 0.25 nm 100 mm F/3 300μm
High Resolution Single Grating Monochromator 330~1000 nm up to 0.1 nm up to 0.2 nm up to 0.1 nm 300 mm F/4.8 10μm~3mm
Double Grating Scanning Monochromator 200~2000 nm up to 0.2 nm up to 0.13 nm up to 0.05 nm 150mm F/4.5 10μm~3mm
Triple Grating Scanning Monochromator 200~2500 nm up to 0.05 nm up to 0.1 nm up to 0.05 nm 300 mm F/4.8 10μm~3mm
High Resolution Triple Grating Monochromator 200~2500 nm up to 0.03 nm up to 0.1 nm up to 0.05 nm 500 mm F/8 10μm~3mm

Sales Guide

If you need our technical team for guidance on product selection or customization,please help to provide below technical information, it helps to speed up the process.

Items Detail Unit Remark
Application      
Spectral Range   nm  
Resolution   nm  
Accuracy   nm  
Repeatability   nm  
Manual or Electric     The electric model has higher accuracy and resolution
Grating Type     Optional grating models refer to the product details page
Whether to install slits at
both entrances and exits		      
Whether an adjustable slit is required      
Single output or Double output     The two outputs of a double-output can be switched
Whether to install a CCD      
Do you need light source products?      
What type of light source is needed?
 Incoherent light like Xe lamp or deuterium lamp or laser light source?		      

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Compare Model Drawings & Specs Availability Reference Price
(USD)
LA-SF01-HRSG-VD
Vertical inlet and outlet,Motor,Focal length 300mm,F/# F/4.8,Stray Light 5×10⁻⁴,Slit Height 14mm,Slit Width 10μm - 3mm,Standard Grating 1200g/mm,λ = 500nm,(Refer to grating model table for other optional grating models) 		4-6 Weeks $2071.80
LA-SF01-HRSG-PD
Parallel inlet and outlet, Motor, Focal length 300mm, F/# F/4.8, Stray Light 5×10⁻⁴, Slit Height 14mm, Slit Width 10μm~3mm, Standard Grating 1200g/mm, λ = 500nm, (Refer to grating model table for other optional grating models) 		4-6 Weeks $2269.12
LA-SF01-HRSG-VS
Vertical inlet and outlet, Manual, Focal length 300mm, F/# F/4.8, Stray Light 5×10⁻⁴, Slit Height 14mm, Slit Width 10μm - 3mm, Standard Grating 1200g/mm, λ = 500nm, (Refer to grating model table for other optional grating models) 		4-6 Weeks $2094.82
LA-SF01-HRSG-PS
Parallel inlet and outlet, Manual, Focal length 300mm, F/# F/4.8, Stray Light 5×10⁻⁴, Slit Height 14mm, Slit Width 10μm~3mm, Standard Grating 1200g/mm, λ = 500nm, (Refer to grating model table for other optional grating models) 		4-6 Weeks $2137.57

LA-SF01-HRSG-PS - Parameter

LA-SF01-HRSG-VS - Parameter

LA-SF01-HRSG-PD - Parameter

LA-SF01-HRSG-VD - Parameter

LA-SF01-HRSG-PS - Download

LA-SF01-HRSG-VS - Download

LA-SF01-HRSG-PD - Download

LA-SF01-HRSG-VD - Download

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Compare Model Drawings & Specs Availability Reference Price
(USD)

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