Description
Atomfair-CTOE-8352 Convolution Theorem Optical Experiment Device
Product Overview
Atomfair-CTOE-8352 is a high-quality experimental device designed for the in-depth study of the convolution theorem in the field of optoelectronics. It adopts optical methods to intuitively present and verify the core principles of the convolution theorem, making abstract theoretical knowledge tangible through practical operations. This device is an ideal tool for academic research, laboratory teaching, and professional training, helping users master key concepts of Fourier optical transformation and convolution theorem efficiently.
Key Product Information
| Item | Details |
| Product Name | Convolution Theorem Optical Experiment Device |
| Product Category | Optoelectronics and Laser |
| Core Principle | The Fourier transform of the product of two functions is equal to the convolution of their respective Fourier transforms; conversely, the Fourier transform of the convolution of two functions is equal to the product of their respective Fourier transforms. This device utilizes optical principles to visually demonstrate and explore this core theorem. |
Experimental Objectives
- Master the relevant theoretical knowledge of the convolution theorem.
- Understand the basic principles and applications of Fourier optical transformation.
- Deepen the understanding and cognition of core principles through hands-on experiments.
Core Configuration & Specifications
| No. | Component Name | Specifications |
| 1 | Light Source | Semiconductor Laser, 650nm, 5mW |
| 2 | Grating | Orthogonal Grating, 20L/mm |
| 3 | Other Accessories | Guide Rail, Sliding Seat, 2D Light Source Bracket, Lens Holder, Lens, White Screen, etc. |
Important Notes
The above configurations and parameters are for reference only. The actual configuration shall be subject to the product packing list. Minor adjustments may be made without prior notice. Atomfair is committed to providing reliable and high-performance experimental equipment, and this product meets international standard requirements to ensure stable operation and accurate experimental results.
If you’re interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.
