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| Projects in Spatial Light Modulation |
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Five hands-on projects illustrate the mathematical principles and illustrate techniques and applications- Informative tutorial handbook
- For engineers, educators, students
- All equipment included
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Product Description
Product Detail
Downloads
Catalog PDF
3-D Model
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Product Description
Projects in Spatial Light Modulation is a self-paced technical course composed of five experiment modules. The diffractive optics kit was developed to demonstrate the interaction of light with matter in technologies we encounter in our daily lives. The experiments provide hands-on experience with diffraction. Its flexible, modular approach makes it ideal both as an elective course for students and as an independent study program for technicians and engineers.
Included is a comprehensive workbook with a tutorial covering a wide range of optics from amplitude modulation in a projection set-up to diffractive optical elements, dynamic diffraction to spatial frequency filtering and phase shifting in a Mach-Zehnder Interferometer. The mathematical principles are illustrated and correlated to the hands-on experiments.
Included in the diffractive optics project kit are all the necessary hardware components matched to the text, optics, liquid-crystal modulator head and software, tailored specifically for the experiments.
Projects in Spatial Light Modulation is a self-paced technical course composed of five experiment modules. The diffractive optics kit was developed to demonstrate the interaction of light with matter in technologies we encounter in our daily lives. The experiments provide hands-on experience with diffraction. Its flexible, modular approach makes it ideal both as an elective course for students and as an independent study program for technicians and engineers.
Included is a comprehensive workbook with a tutorial covering a wide range of optics from amplitude modulation in a projection set-up to diffractive optical elements, dynamic diffraction to spatial frequency filtering and phase shifting in a Mach-Zehnder Interferometer. The mathematical principles are illustrated and correlated to the hands-on experiments.
Included in the diffractive optics project kit are all the necessary hardware components matched to the text, optics, liquid-crystal modulator head and software, tailored specifically for the experiments.
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Ordering Information | | Quantity | Model | Description | Price | | | DOEK-KIT | Projects in Spatial Light Modulation (Projects 1-5) | | | | DOEK-KIT-TEXT | Projects in Spatial Light Modulation Workbook | | | | DK-LCMH-800A | LC Modulation Head, SVGA | |
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Ordering Information, Metric | | Quantity | Model | Description | Price | | | M-DOEK-KIT | Projects in Spatial Light Modulation (Projects 1-5), Metric | |
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Projects | | Project | Name | Description | | 1 | Projection and Display Characterization | Implementation of the modulator as a projection device: Identification of the mode of operation; creation of amplitude modulation by rotation of the polarization axis of the light as a function of the applied voltage; identification of parameters like: pixel size, length of molecule axis, maximum phase shift; illuminating and imaging optical path. | | 2 | Generation and Analysis of Dynamic Diffractive Structures | Implementation of the modulator to create different primary diffractive structures, based on phase modulation of light. Description of changes on the diffractive pattern from changing projected diffractive structure. Comparison of the diffraction behavior due to their complementing structures (Babinet’ sches Theorem). Measurements of progressive diffraction intensity and definition of diffraction efficiency from selected structures. Superposition of simple
diffraction pattern as a base for diffractive optical elements. | | 3 | Diffractive Optical Elements | Measurements of progressive diffraction intensity and definition of diffraction efficiency from selected structures and superposition of simple diffraction pattern as a base for diffractive optical elements. | | 4 | Spatial Frequency Filtering | Spatial Frequency Filtering | | 5 | Mach-Zehnder Interferometer with Contollable Phase Shift | Mach-Zehnder Interferometer with Contollable Phase Shift |
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DOEK-KIT Contents | | Model | Description | Quantity | | DK-LCMH-800A | LC Modulation Head, SVGA | 1 | | PS-LCMH-1 | Power Supply, LCMH-800A | 1 | | 232-CBL-M/M | RS-232 Cable, Male to Male | 1 | | VGA-CBL-LCMH | VGA Output Cable | 1 | | LD-635-20MM | Laser Diode with Beam Expander | 1 | | PS-LD-DOEK | Power Supply, Laser Diode | 1 | | DOEK-KIT-TEXT | Projects in Spatial Light Modulation Workbook | 1 | | DOEK-KIT-CD | Software CD; Drivers, Application Software and DOE Sample Structures | 1 | | MRL-12M | MRL Rail, Thd M4 & Clr M6 holes, 12 in. (300mm) | 1 | | MCF | MRL Rail Flat Carrier, 1/4-20 (M6) Clr hole | 5 | | VPH-2 | Standard Post Holder, 2 in., For Post Dia. 0.5 in. | 4 | | SP-2 | Standard Post, 0.5 in. Dia., 2 in., 8-32 & 1/4-20 Tapped Holes | 4 | | LH1-1R | Holder for 1 in. (25.4 mm) dia. Optics | 2 | | LM1-R | Mount for LH1 Series Optics Holders | 2 | | SP-2 | Standard Post, 0.5 in. Dia., 2 in., 8-32 & 1/4-20 Tapped Holes | 2 | | 90000966 | 1 in. Polarizer | 2 |
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