TO DETERMINE THE WAVELENGTH OF DIODE LASER USING DIFFRACTION GRATING

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TO DETERMINE THE WAVELENGTH OF DIODE LASER USING DIFFRACTION GRATING Specification

Type
Physics Laboratory Instrument

Material
Metal and Optical Glass

Size
Standard

Input Voltage
220V AC, 50Hz

Color
Black and Silver

Dimension (L*W*H)
375 mm x 250 mm x 150 mm (approx)

Capacity
Single Experiment, Educational Use

Noise Level
Silent Operation

Beam Adjustment
X-Y positioning with manual adjustment

Compliance
Meets laboratory safety standards

Laser Source
Diode laser module, 650 nm nominal wavelength

Accessories Provided
Diffraction grating, observation screen, mounting stand, AC power cord

Usage
Designed for academic and research demonstration

Power Consumption
<5W

Operation Mode
Continuous wave

Detector
Screen or ruler included for measuring diffraction pattern

Application
Determining the wavelength of diode lasers using diffraction principles

Diffraction Grating
600 lines/mm or 1000 lines/mm (as supplied)

About TO DETERMINE THE WAVELENGTH OF DIODE LASER USING DIFFRACTION GRATING

Procure this distinguished laboratory masterpiece designed to determine the wavelength of diode lasers using a precise diffraction grating method. Featuring a first-rate diode laser module at 650 nm nominal wavelength, it offers instant savings in time with X-Y beam positioning and intuitive manual adjustment. The kit comes complete with a 600 or 1000 lines/mm diffraction grating, observation screen, mounting stand, and all essential accessories. Engineered for academic and research use, it ensures silent operation and complies with stringent laboratory safety standards. Advance purchase is available for bulk requirements. Sourced from India's premier distributor, exporter, manufacturer, and supplier, it is robustly built with metal and optical glass for enduring performance.

Advanced Academic Instrument - How to Use and Key Features

Begin by mounting the diode laser and aligning it with the provided diffraction grating. Adjust the X-Y controls for precise beam direction, then observe the diffraction pattern on the included screen or ruler. This instrument is widely used by educators, researchers, and students in college and university laboratories. Key features include continuous wave operation, high-quality optical glass components, and easy manual adjustment, ensuring accurate results and a user-friendly experience for academic demonstrations.

Reliable Packaging, Expansive Export Markets and Timely Delivery

Each unit is carefully packaged in a securely cushioned box to ensure safe delivery worldwide. Our main export markets include educational institutions across Asia, Europe, and North America. Upon receiving a confirmed purchase order, order processing is immediate and products are dispatched promptly. Typical delivery time ranges from 7 to 21 business days depending on the destination, guaranteeing swift and reliable service for every client.

FAQ's of TO DETERMINE THE WAVELENGTH OF DIODE LASER USING DIFFRACTION GRATING:

Q: How does the diffraction grating help determine the wavelength of a diode laser?

A: The diffraction grating disperses the laser light into a pattern, and by measuring the angle or distance of diffraction spots using the included screen or ruler, you can calculate the exact wavelength of the diode laser.

Q: What is the process for using this instrument in a classroom or laboratory setting?

A: Secure the laser module in place, align it with the diffraction grating, and adjust the X-Y positioning to direct the beam at the correct angle. Measure the resulting diffraction pattern on the observation screen using the supplied ruler for accurate wavelength determination.

Q: Where can this physics laboratory instrument be used most effectively?

A: It is ideal for use in academic and research laboratories, particularly in physics departments at schools, colleges, and universities, providing hands-on demonstrations for optical experiments.

Q: What benefits does this apparatus offer for educational institutions?

A: The apparatus delivers first-rate optical precision, facilitates easy hands-on learning, and is compliant with laboratory safety standards. Its robust design ensures longevity, making it a valuable asset for repeated instructional use.

Q: When can delivery be expected after placing a purchase order?

A: Delivery is typically completed within 7 to 21 business days after processing the purchase order, ensuring timely arrival for academic schedules or laboratory planning.

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