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Multi-functional Digital Optical Teaching System (Reflective & Transmissive)

Product Features

1. Lots of room for debugging, exercise in hands-on skills;

2. Rationalization of experiments, including classic and cutting-edge;

3. Flexible programmable, open course design;

4. Autonomous software, real-time adjustable parameters.

    Product Briefing

    This system is used in the optoelectronics laboratory, located in the laboratory teaching, and includes diffraction, double-slit interference, Talbot image, Fresnel wave band slice, Michaelson interference, computational holography reproduction, Abbey-Porter experiments, beam conversion and other dozens of optical experiments reflective multifunctional optical teaching system.

    Product Concept: Change the unchanging classroom and let laser science take root downward;Teach according to the material, add to the cultivation of high-level skillful talents.

    Application Scenario: Optoelectronics Laboratory

    Objects: Optics, photoelectricity, science and technology majors in colleges and universities

    Experiment content: a total of 18, including Michelson interference, diffraction, computational holography, beam transformation and so on.

    Product Parameters

    Reflective system parameters

    Pseudolaric acid

    Multi-functional Digital Optical Experiment System (Reflective)

    Brand Name

    CAS MICROSTAR

    Specification

    DH-DO-F

    Experimental content

    18 optical experiments including: wavelength measurements, amplitude modulation, SLM modulation of polarization states, real-time image transformation, Talbot images, Abbey-Porter experiments, spatial filtering experiments, imaging and projection, diffraction, double-slit interferometry, double-slit interferometry to study the amount of phase modulation of the SLM, Michaelson interferometry, computational holographic reproduction, Fresnel wavetape slices, beam transformations, plane-wave versus other waveforms interference, measurement of pixel size, phase-shifted digital holography

    Number of collimators/focal length

    1/ f=45mm

    Number of focusing lenses/focal length

    3/ f=85mm & 1/ f=250mm

    SLM resolution

    1920×1080

    SLM pixel size

    4.5μm

    SLM phase range

    2π@532nm

    SLM Optical Utilization

    75%±5%

    Data Interface

    DP

    Power Input

    0-3V adjustable (laser)/5V 2A (SLM)/9V 1A (power meter)

    Acquisition Image Resolution

    2048×1536, 1920×1440, 1600×1200, 1440×1080, 1280×960, 1024×768, etc., according to the needs of choice

    software functionality

    Including: menu bar, selection items, experiment selection area, graphic control area, optical path display area, experimental principle introduction area and image display area; based on the menu bar, you can select the resolution of the corresponding modulator in the resolution; based on the selection items, you can select the amplitude modulation and phase modulation according to the need; based on the experimental selection area, you can select the corresponding experiments according to the need; based on the development of the C# language, Windows 7 Based on C# language, Windows 7 and above 32/64 bit running environment; Image import and save are available.

    Dimension of packing box

    480mm×430mm×230mm,Inside the box part of the upper and lower two-layer design

    other

    Equipped with power meter, CCD, etc.

    Transmissive System Parameters

    Pseudolaric acid

    Multi-functional Digital Optical Experiment System (Transmissive)

    Brand Name

    CAS MICROSTAR

    Specification

    DH-DO-T

    Experimental content

    16 optical experiments including: laser wavelength measurements, amplitude modulation, SLM modulation of polarization states, real-time image transformation, Talbot images, pixel size measurements, Abbe-Potter experiments, spatial filtering experiments, imaging and projection, diffraction, double-slit interferometry, double-slit interferometry to study the amount of phase modulation of the SLM, calculating holographic reproductions, Fresnel band slices, beam transformations, dispersion

    Number of focusing lenses/focal length

    3/ f=80mm & f=500mm

    SLM resolution

    1024×768

    SLM pixel size

    26μm

    SLM Contrast Ratio

    400:1

    Data Interface

    VGA/HDMI

    Power Input

    0-3V adjustable (laser) / 16V 1A or 12V 2A (SLM) / 9V 1A (power meter)

    Acquisition Image Resolution

    2048×1536, 1920×1440, 1600×1200, 1440×1080, 1280×960, 1024×768, etc., according to the needs of choice

    software functionality

    Including: menu bar, selection items, experiment selection area, graphic control area, optical path display area, experimental principle introduction area and image display area; based on the menu bar, you can select the resolution of the corresponding modulator in the resolution; based on the selection items, you can select the amplitude modulation and phase modulation according to the need; based on the experimental selection area, you can select the corresponding experiments according to the need; based on the development of the C# language, Windows 7 Based on C# language, Windows 7 and above 32/64 bit running environment; Image import and save are available.

    Dimension of packing box

    405mm×325mm×225mm, top and bottom two-layer design in the inner part of the box

    other

    Equipped with CCD, beam expander, observation screen, etc.

    Software Functionality

    Multi-functional Digital Optical Teaching System (Reflective & Transmissive) (5)qa9

    The main interface of software is shown in the above figure. The main interface is mainly divided into the following parts: menu bar, selection items, experiment selection area, graphic control area, optical path diagram display area, experimental principle introduction area and image display area.

    ● Menu bar: displays the resolution size;

    ● Selection item: you can choose between amplitude modulation and phase modulation according to the experimental needs;

     Experiment selection area: this area mainly corresponds to the selection items one by one, when different modulation types are selected, the corresponding experiments are different;

    ● Graphic control area: this area is mainly used to realize the experimental effect under different experimental parameters by setting the key parameters of the related experiments, and each experiment corresponds to a different graphic control area;

    ● Image display area: this area is mainly used to display the image generated in the above selected experiments, and will be synchronized to its real-time display to the second screen, the module is mainly designed to facilitate the operator to observe the image loaded into the spatial light modulator image is correct or not and the graphic display area;

    ● Experimental Principle Area: The experimental principle area is mainly used to introduce the relevant experimental principles in concise text;

    ● Light path display area: this area is mainly used to present the relevant experimental light path diagram.

    Part Of The Experimental Effect Show

    10u1

    Michaelson interfered

    2wjm

    double-slit interference

    3fad

    grating diffraction

    4t42

    maging and projection (before filtering)

    5vq0

    Imaging and projection (after filtering)

    6jmq

    Spatial filtering (before filtering)

    7079

    Spatial filtering (after small-hole filtering)

    8dzu

    low-pass filtering

    949s

    high pass filtering

    102nq

    Spherical wave interference

    11kuu

    Shining grating interference

    12pa1

    Talbot image (ortho)

    13rlp

    Computational holography

    14b95

    Image transformation (orthophoto)

    1564h

    Image Transformation (Negative Image)

    16ad2

    Image transformation (differential image)

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