Description

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Atomfair LBS-479 Laser Beam Shaping & Optics Experiment System

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1. Product Overview

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Atomfair LBS-479 Laser Beam Shaping & Optics Experiment System is specially designed for the teaching of laser principles and applications in majors such as optoelectronic information, applied physics and optical engineering in institutions of higher education. Focusing on core technologies of laser beam control, the system covers the whole process experiments of beam shaping, transformation, transmission and detection. It helps students master laser beam characteristics, shaping principles and optical system design methods, and meets the needs of laser optics teaching and basic scientific research at undergraduate and postgraduate levels.

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2. Core Features

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• Comprehensive beam control dimensions: Supports multi-type beam processing such as Gaussian beam shaping, flat-top beam generation and vortex beam control, covering mainstream application scenarios of laser beam control;

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• Modular design: Core optical components (beam expanders, shapers, waveplates, detectors) are independently modularized, supporting free combination to build experimental optical paths and cultivate innovative design capabilities;

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• High detection accuracy: Equipped with high-precision beam profiler (resolution 鈮

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• Strong compatibility: Adapt to mainstream teaching laser wavelengths such as 632.8nm (He-Ne laser), 532nm (green laser) and 1064nm (infrared laser);

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• Visual operation: Equipped with CCD imaging module and real-time display software, experimental phenomena are intuitively visible, and data can be recorded and exported in real time, facilitating teaching demonstration and data analysis.

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3. Main Experimental Content

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• Measurement experiment of Gaussian beam characteristics (measurement of spot size, divergence angle, M虏 factor);

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• Experiment of laser beam expansion and collimation (performance comparison of different beam expansion systems);

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• Experiment of shaping Gaussian beam into flat-top beam (comparison of amplitude/phase shapers);

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• Experiment of vortex beam generation and transmission characteristics (measurement of topological charge);

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• Experiment of laser beam polarization state control (polarization direction control by waveplate combination);

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• Experiment of aberration correction in beam transmission (influence of spherical/coma aberration on beam quality);

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• Experiment of laser beam quality evaluation (measurement of M虏 factor, Strehl ratio);

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• Experiment of beam shaping design and verification of complex optical systems (expansion experiment).

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4. Core Knowledge Points

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• Basic characteristics, transmission laws and beam quality evaluation indicators (M虏 factor, Strehl ratio) of Gaussian beams;

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• Core principles of laser beam shaping (amplitude modulation, phase modulation, geometric transformation);

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• Generation mechanisms and application scenarios of different types of beams (flat-top beams, vortex beams);

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• Working principles of optical polarization devices (waveplates, polarizers) and polarization state control methods;

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• Influence of optical aberrations on beam transmission quality and correction strategies;

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• Design ideas, optical path construction and performance evaluation methods of laser beam shaping systems.

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5. Specification Parameters (International Standard)

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• Adapted wavelengths: 632.8nm (He-Ne laser), 532nm (green laser), 1064nm (infrared laser), compatible with international mainstream teaching laser light sources;

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• Beam profiler: Resolution 鈮

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• Optical components: Beam expanders (2脳/4脳/8脳), waveplates (位/4, 位/2), shapers, etc., surface accuracy 位/10, complying with international standards for optical teaching components;

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• Working environment: Operating temperature 15~30鈩

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• Safety standards: Laser protection level complies with Class 1M international laser safety specifications, and optical components are equipped with scratch/pollution protection.

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6. Main Configuration

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Core Components	Auxiliary Accessories
LBS-479 experimental host	Optical adjustment frame (multi-dimensional adjustment)
632.8nm He-Ne laser	Optical guide rail (length 1.2m)
532nm/1064nm laser modules	Beam profiler software (English version)
High-precision beam profiler	Polarizer/waveplate set
Beam shapers (amplitude/phase type)	Laser power meter (range 0~200mW)
CCD imaging module	Optical cleaning kit

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7. Customization Services

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• Experiment customization: Add/adjust beam shaping experimental projects according to curriculum needs to adapt to different teaching levels of undergraduate/postgraduate;

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• Configuration upgrade: Upgrade high-resolution beam profiler, add special beam (vector beam) control modules;

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• Teaching supporting: Customize English experimental instruction manuals, optical path design simulation tutorials and scientific research-level experimental cases;

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• Technical support: Provide overseas equipment calibration, optical component replacement and remote technical guidance services.

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If you鈥檙e interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.