![]() Plus, we offer customized diffraction glasses so you can add your brand, logo, or other personalized touches for your next event! Simply contact our support team at 1-80 or send us a message via our online contact form to learn more. Now that you know a bit more about how diffraction glasses work and the amazing, yet simple, science behind them, it’s time to get yourself a pair! At Rainbow Symphony, we offer a wide selection of high-quality but affordable diffraction glasses, including plastic diffraction glasses, our LaserSpex™ Plastic Rainbow Fireworks Glasses® designed specifically for light shows, a variety of paper diffraction glasses perfect for any occasion, and so much more! However, if you look at a red light source, you will see the red components of the light spectrum!Įxperience Diffraction Glasses for Yourself A common white light source breaks up into a standard rainbow spectrum of colors (red, orange, yellow, green, blue, indigo, and violet). You can experiment with different colored lights while wearing your diffraction glasses. As you move your head, the light dances across the surfaces of the lens for a truly spectacular experience! ![]() ![]() What you see on the other side (behind the lens) is the dazzling array of sparkling colors, shapes, lines, and dots. The surface of these lenses serves as our “grating” upon which the light will diffract.īut the real secret to how diffraction glasses work? Light, of course! When you wear the glasses and direct them towards a light source––this could be the light show of a concert or the lamps in your living room––the beam of light strikes the holographic surface of the lens (our “grating”) and breaks up into its spectrum. First, we produce a high-quality, holographic lens that contains thousands of tiny lines. Cool, right?ĭiffraction glasses, like those we design at Rainbow Symphony, work on this ancient principle of physics. Have you ever observed the ripples of water in a pond move around a stationary rock? Those waves are being diffracted. While diffraction glasses specifically relate to the diffraction of light, diffraction could also apply to water waves, radio waves, or sound waves. Diffraction is the process by which a beam of light is spread out after passing through a narrow opening or across a grating. Let’s get technical for a moment and define the term diffraction as it applies to light and physics. Whether you want to enhance your enjoyment of a music festival, seeking a unique party favor to hand out to your guests, or simply seeking a way to deepen your understanding of light, diffraction glasses are a fun and affordable option.īut you may be wondering, how do diffraction glasses work? Read on to learn a little bit about the science behind our diffraction glasses! Today, diffraction glasses, also known as fireworks glasses, are a popular way to experience the spectacular properties of light and color. Theirs is the same colorful spectrum that we still see today in everything from rainbows in the sky to light bouncing off of the back of a DVD! The term diffraction itself was coined by Francesco Maria Grimaldi, an Italian scientist and contemporary of Newton’s, who also studied the behavior of light. Pro tip! These are recommended to use with our Power Supply and Spectrum Gas Tubes.The principle of light diffraction dates back to the experiments of Sir Isaac Newton, who observed that when a light source passed through a prism, it would split into its spectrum of seven distinct colors. Our bulk value pricing also means you can easily purchase lenses for the whole class.įor scientific education purposes, our holographic diffraction glasses 500 ln/mm are the perfect choice. Our 500 line/mm holographic diffraction glasses are ideal for education purposes, where students can view the color spectrum in a new and unique way. What does that mean to you? Put on our holographic diffraction glasses and you’ll be able to study and analyze light! Experience an axis of colors as you view the color spectrum of any light source. Diffraction Glasses have a thin layer of diffraction gratings embedded into their lenses which splits light into its individual spectrum of colours. Our unique glasses have microscopic slits that take a source of white light and break it down into its spectral components. A diffraction grating is a tool used for the separation of the spectral lines, they act as a 'super prism', separating the different colours of light. ![]() You can’t go wrong with Rainbow Symphony’s holographic Diffraction Grating Glasses, Linear 500 ln/mm. Combined with our lenses, this is the perfect way to view how they separate light. Looking to perform a classroom experiment? Perhaps you have plans to use these with a spectroscope. Diffraction Grating Glasses - Linear 500 ln/mm
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