chanelink logo
CHANELINK
Deutsch

AMC Theatres launches advanced laser projection technology upgrades

263
2023-12-23 14:10:49
Übersetzung anzeigen

AMC Cinema has long been known as the largest cinema operator in the United States and the world, and has completed upgrades to almost all its venues in the broader Chicago area, including advanced laser projection technology.

The technological reform of this chain of stores has made Chicago one of the first areas in AMC's footprint to benefit from CinIonic's cutting-edge projection technology.

In early 2022, AMC publicly announced an agreement with CinIonic to equip its 3500 cinemas in the United States with laser projectors by 2026. Promoting such improvements to its "AMC Laser" banner is estimated to cost $250 million.

With the advanced laser projection technology of our partner CinIonic, fans who experience Laser movies at AMC can enjoy the enhanced features of chain cinemas, such as higher contrast, peak brightness, and richer colors.

The two companies also claim that their large-scale cinema technology upgrade is an "environmentally friendly method" for movies, as it reduces waste by significantly reducing energy consumption and eliminating the demand for disposable xenon bulbs.

"Every time you see Laser on AMC, you can expect exciting movies to be presented on the screen in brighter, clearer, and more vibrant colors," said Adam Cassels, Vice President of Global Marketing at CinIonic. Together with AMC, we are raising the standards for the entire Chicago cinema experience.

AMC River East 21 and AMC DINE-IN 600 North Michigan 9 are among the other nearby cinemas newly equipped with Cinenic laser projection technology.

After rebounding from closed cinemas nationwide throughout the COVID-19 pandemic, AMC hopes that its new technology enhancements can strengthen its role as a leader in so-called "top tier cinemas" and viewing experiences.

Source: Laser Net

Ähnliche Empfehlungen

  • The First Operation of Two Color Mode in Infrared Free Electron Laser

    The Fritz Haber Institute of the Max Planck Institute in Berlin has achieved a technological milestone. The infrared free electron laser operates in dual color mode for the first time. This globally unique technology makes it possible to conduct experiments on synchronous dual color laser pulses, opening up new possibilities for research.There are over a dozen free electron lasers worldwide, with ...

    2024-02-18
    Übersetzung anzeigen

  • Single photon avalanche diode detector enables 3D quantum ghost imaging

    A team of researchers at the Fraunhofer Institute for Optoelectronics, Systems Technology and Image Development and Karlsruhe Institute of Technology are using single-photon avalanche diode (SPAD) arrays to achieve three-dimensional (3D) quantum ghost imaging.The new method, called "asynchronous detection," produces the lowest photon dose of any measurement and can be used to image light-sensitive...

    2023-09-06
    Übersetzung anzeigen

  • The Japanese team uses laser technology for ice core sampling to accurately study climate change

    Recently, a research team from the Astronomical Glaciology Laboratory under the RIKEN Nishina Center (RNC) of the Japanese Institute of Physics and Chemistry announced that they have developed a new laser based sampling system for studying the composition of glacier ice cores.The above image shows the discrete holes sampled 150mm from the shallow ice core of the Fuji Ice Dome in Japan (Southeast ...

    2023-09-23
    Übersetzung anzeigen

  • Medium-long wavelength infrared quantum cascade laser of MOCVD on silicon

    Us researchers report 8.1 μm wavelength quantum cascade laser (QCL) grown on silicon (Si) by MOCVD [S. Xu et al., Applications. Physics Letters, v123, p031110, 2023]. "There are no previous reports of QCL growth on silicon substrates by metal-organic chemical vapor deposition (MOCVD)," commented the team from the University of Wisconsin-Madison, the University of Illinois at Urbana-Champaign an...

    2023-08-04
    Übersetzung anzeigen

  • China University of Science and Technology has made progress in in-situ monitoring of thermal runaway in lithium-ion batteries with optical fibers

    Recently, the team of Professor Sun Jinhua and researcher Wang Qingsong of the University of Science and Technology of China and the team of Professor Guo Tuan of Jinan University have made important achievements in the field of early warning of thermal runaway optical fiber detection of lithium-ion batteries.A high-precision, multi-mode integrated fiber optic device that can be implanted in...

    2023-09-04
    Übersetzung anzeigen