SCHOTT solutions no. 1/2012 > Digital Projection

Almost like real life: the combination of digital high-end projection and 3D filter glasses creates a ­spatial illusion inside a 3-D theater. The efficiency of the optical imaging system is what counts here. Photo: BARCO

The Fascination of
Digital 3-D Cinema

SCHOTT offers components for advanced, high-intensity projectors of the third dimension.

Oliver Hahr

This isn’t a movie people watch, but rather experience.” The media as well as audiences euphorically celebrated James Cameron’s 3-D epic film “Avatar – Return to the World.” The fantasy spectacle has raked in 2.8 billion dollars since it premiered on December 17, 2009. It already ranks as the single most successful movie of all time by far. 25 new 3-D movies followed in 2010 and 47 in 2011. This year, digital 3-D versions of Star Wars, Titanic and Ice Age will most likely fill the more than 50,000 movie theaters all over the world that already offer digital 3-D experiences – twice as many as last year. “In 3-D presentations, two slightly different images are supplied from different camera perspectives – one for each eye,” explains Tim Sinnaeve, Market Director Digital Cinema at Barco N.V. This Belgian technology firm is one of the world’s leading companies in the area of professional visualization products. “The images are usually projected onto the screen on an alternating basis at a speed of 144 hertz. This is faster than the eye can perceive. The glasses that need to be worn while watching a 3-D movie filter the images in such a way that only the appropriate perspective reaches the left or right retina and thus creates the impression that this area is real inside the brain.” he adds.
SCHOTT N-BK7® glass is used to manufacture color filter prisms for digital projectors. These can be used to project films onto the screen in up to 35 million colors. Photo:SCHOTT/C. Costard
For larger audiences, there is currently no alternative to these filter glasses. Without them, the movie would look blurred and out of focus. When several hundred people sit next to or behind each other to watch a movie, the images are transmitted separately to the left and right eye according to color, polarization or time and then selected for the respective eye by the eyeglasses. While filter glasses no longer need to be worn today with home cinema and office applications, these small systems do not come close to achieving the brilliant color experience shown on the big screen. “Digital high-end projectors for big screens display pin sharp images on a surface more than 200 square meters in size. The lamps with up to 7 kW of power produce a flow of light in excess of 40,000 lumens in 35 trillion colors. Even the smallest of details can thus be experienced,” Tim Sinnaeve explains. “These systems have been in constant use for decades. All of their components must be able to withstand high energy inside the smallest of spaces. The ­efficiency of the lens is extremely important here: each increase in light yield produces an even more intense image and lowers the operating costs for the owner,” he adds.
In order to meet these demanding requirements, Barco is using SCHOTT N-BK7® for color filter prisms that divide the white light of the lamp into the color components red, green, and blue (RGB) and direct it onto optical semiconductors using light guides made of the same material. The light has to travel through the material for distances of 150 mm and more, making SCHOTT's materials key elements for the quality of the projector. Then, the so-called Digital Mirror Devices (DMD; see end of page) reflect the light onto the lens of the projector with the help of up to two million individually steerable micromirrors. This enables the movie to appear on the screen in front of the viewing audience incredibly clearly in 35 trillion colors. “SCHOTT N-BK7® is highly homogenous and offers high light yield. It is especially suited for lenses and prisms of cameras and projectors,” explains Ralf Reiter, Director Development and Applications at SCHOTT Advanced Optics in Mainz. “For further optimization, we have developed special versions of a variety of different glass types that offer extremely high transmission (HT). SCHOTT N-BK7® HT, for instance, delivers minimum transmission of 99.6 percent at a wavelength of 400 nm and a thickness of 25 mm. Within the visible spectrum range of between 400 and 700 nm, the absorption coefficient is three times lower than with standard N-BK7. This means less heat is generated and the risk of image errors is much lower. This also brings a significant improvement in the image quality of these types of projectors” he notes. <|
Foto: : BARCO

“Digital high-end projectors display pin sharp images on a surface more than 200 square meters in size.” “

Tim Sinnaeve, Market Director Digital Cinema, Barco


Digital Cinema

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