![]() and reflects the incredible momentum behind Major League Soccer,” said Eddy Cue, Apple’s senior vice president of Services. “Lionel Messi joining Inter Miami marks a historic moment for the sport in the U.S. MLS Season Pass can be accessed through the Apple TV app on smart TVs, streaming devices, Apple devices, set-top boxes, and game consoles, as well as on the web at tv. MLS Season Pass will feature an enhanced production for Inter Miami’s matches during Leagues Cup, including 18 cameras Steadicam four super-slow-motion cameras Skycam drone coverage sideline reporters in Spanish and English a dedicated one-hour pregame show onsite with features, interviews, and expert analysis and a postgame show to wrap things up. To mark Lionel Messi’s anticipated debut with Inter Miami CF and Major League Soccer on Friday, July 21, fans around the world can tune in to MLS Season Pass to enjoy a range of content that complements all the action on the pitch.Īs Inter Miami takes on LIGA MX’s Cruz Azul to kick off Leagues Cup, fans in more than 100 countries and regions can tune in to the match in English and Spanish on MLS Season Pass, and enjoy elevated production elements in honor of this historic moment. ![]() The femtosecond laser is a type of ultrafast laser that creates a minimal number of heat-affected zones by having a pulse duration, below the picosecond level, making the technology ideal for micromachining, medical device fabrication, scientific research, eye surgery, and bioimaging.Apple celebrates Lionel Messi’s debut with Inter Miami CF on MLS Season Passįans around the world can watch all the Messi action and the Leagues Cup tournament starting July 21 Real-time imaging of temporal focusing of a femtosecond laser pulse at 2.5 Tfps. Combined with the image acquired by the femtosecond streak camera, we can use what is called a Radon transformation to obtain high-quality images while recording ten trillion frames per second." He also added, "So to improve this, we added another camera that acquires a static image. "We knew that by using only a femtosecond streak camera, the image quality would be limited," explained Lihong Wang, Director of Caltech Optical Imaging Laboratory (COIL). Principle of operation of the T-CUP camera. The result is a 450-by-150-pixel video that lasts for 350 frames. Then, a computer will combine the data from the two cameras, using the smeared image from the still camera to fill in the gaps in the movie. The still camera makes a single, smeared shot of the laser's whole motion.ĭuring the course of the study, this process was recorded in 25 frames taken at an interval of 400 femtoseconds, and it also detailed the light pulse’s shape, intensity, and angle of inclination. The movie camera captures the scene at the screaming edge of what is possible for the device to see. ![]() Typically, the T-CUP splits the image of the laser into two devices: a motion recorder and a camera that makes a single exposure of the scene. The study, published in an October 2018 issue of the journal, Light: Science & Applications, showed that the new system, based on a femtosecond streak camera, incorporated a data acquisition type used in applications such as tomography. Aided by compressed imaging and a fast streak camera, this division helped minimize the number of measurements and enabled the image reconstruction algorithms to achieve frame rates two orders of magnitude better than the current receive-only ultrafast cameras. The setup recorded a sample’s dynamic intensity patterns, then split them into two optical pathways retaining spatial and temporal information. Lihong Wang, from the California Institute of Technology in Pasadena in the US, and his colleagues have now developed the world’s fastest camera that can capture the temporal focus dynamics by taking trillions of images per second in a single exposure. While standard optical instruments focus on a spatial point, temporal microscopes confine photons along a narrow plane that can penetrate samples and excite multiple components simultaneously. Improvements in the photography technique has enabled the visualization of instantaneous light patterns in real time. ![]() The trillion-frame-per-second compressed ultrafast photography system.
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