{"id":18221,"date":"2018-10-11T12:00:00","date_gmt":"2018-10-11T12:00:00","guid":{"rendered":"https:\/\/dev.inrs.ca\/worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second\/"},"modified":"2021-05-21T12:44:53","modified_gmt":"2021-05-21T16:44:53","slug":"worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second","status":"publish","type":"post","link":"https:\/\/dev.inrs.ca\/en\/news\/worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second\/","title":{"rendered":"World\u2019s fastest camera freezes time at 10 trillion frames per second"},"content":{"rendered":"\n<p style=\"font-size:clamp(14px, 0.875rem + ((1vw - 3.2px) * 0.602), 19px);px\"><strong>What happens when a new technology is so precise that it operates on a scale beyond our characterization capabilities? For example, the lasers used at INRS produce ultrashort pulses in the femtosecond range (10<sup>\u201315<\/sup>&nbsp;s) that are far too short to visualize. <\/strong><\/p>\n\n\n\n<figure class=\"wp-block-gallery columns-2 is-cropped wp-block-gallery-2 is-layout-flex wp-block-gallery-is-layout-flex\"><ul class=\"blocks-gallery-grid\"><li class=\"blocks-gallery-item\"><figure><img loading=\"lazy\" decoding=\"async\" width=\"640\" height=\"354\" src=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_01.jpg\" alt=\"\" data-id=\"31313\" data-full-url=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_01.jpg\" data-link=\"https:\/\/dev.inrs.ca\/en\/news\/worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second\/attachment\/news_worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_01\/\" class=\"wp-image-31313\" srcset=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_01.jpg 640w, https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_01-300x166.jpg 300w\" sizes=\"auto, (max-width: 640px) 100vw, 640px\" \/><figcaption class=\"blocks-gallery-item__caption\">The trillion-frame-per-second compressed ultrafast photography system.<br><\/figcaption><\/figure><\/li><li class=\"blocks-gallery-item\"><figure><img loading=\"lazy\" decoding=\"async\" width=\"640\" height=\"354\" src=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_02.jpg\" alt=\"\" data-id=\"31314\" data-full-url=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_02.jpg\" data-link=\"https:\/\/dev.inrs.ca\/en\/news\/worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second\/attachment\/news_worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_02\/\" class=\"wp-image-31314\" srcset=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_02.jpg 640w, https:\/\/dev.inrs.ca\/wp-content\/uploads\/2018\/10\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_02-300x166.jpg 300w\" sizes=\"auto, (max-width: 640px) 100vw, 640px\" \/><\/figure><\/li><\/ul><\/figure>\n\n\n\n<p class=\"has-drop-cap\">Although some measurements are possible, nothing beats a clear image, says INRS professor and ultrafast imaging specialist&nbsp;<a href=\"https:\/\/dev.inrs.ca\/en\/research\/professors\/jinyang-liang\/\">Jinyang Liang<\/a>. He and his colleagues, led by Caltech\u2019s&nbsp;<a href=\"https:\/\/mede.caltech.edu\/people\/lvw\" target=\"_blank\" rel=\"noreferrer noopener\">Lihong Wang<\/a>, have developed what they call T-CUP:&nbsp;<a href=\"https:\/\/www.nature.com\/articles\/s41377-018-0044-7\" target=\"_blank\" rel=\"noreferrer noopener\">the world\u2019s fastest camera<\/a>, capable of capturing ten trillion (10<sup>13<\/sup>) frames per second (Fig. 1). This new camera literally makes it possible to freeze time to see phenomena\u2014and even light!\u2014in extremely slow motion.&nbsp;<\/p>\n\n\n\n<p>In recent years, the junction between innovations in non-linear optics and imaging has opened the door for new and highly efficient methods for microscopic analysis of dynamic phenomena in biology and physics. But to harness the potential of these methods, there needs to be a way to record images in real time at a very short temporal resolution\u2014in a single exposure.<\/p>\n\n\n\n<p>Using current imaging techniques, measurements taken with ultrashort laser pulses must be repeated many times, which is appropriate for some types of inert samples, but impossible for other more fragile ones. For example, laser-engraved glass can tolerate only a single laser pulse, leaving less than a picosecond to capture the results. In such a case, the imaging technique must be able to&nbsp;<a href=\"https:\/\/www.osapublishing.org\/optica\/abstract.cfm?uri=optica-5-9-1113\" target=\"_blank\" rel=\"noreferrer noopener\">capture the entire process in real time<\/a>.&nbsp;<\/p>\n\n\n\n<p>Compressed ultrafast photography (CUP) was a good starting point them. At 100 billion frames per second, this method approached, but did not meet, the specifications required to integrate femtosecond lasers. To improve on the concept, the new T-CUP system was developed based on a femtosecond streak camera that also incorporates a data acquisition type used in applications such as tomography.&nbsp;<\/p>\n\n\n\n<div class=\"wp-block-image\"><figure class=\"alignright size-large is-resized\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2020\/11\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_03.jpg\" alt=\"\" class=\"wp-image-31319\" width=\"247\" height=\"496\" srcset=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/2020\/11\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_03.jpg 282w, https:\/\/dev.inrs.ca\/wp-content\/uploads\/2020\/11\/NEWS_Worlds-fastest-camera-freezes-time-at-10-trillion-frames-per-second_03-149x300.jpg 149w\" sizes=\"auto, (max-width: 247px) 100vw, 247px\" \/><figcaption>Real-time imaging of temporal focusing of a femtosecond laser pulse at 2.5 Tfps.<br><\/figcaption><\/figure><\/div>\n\n\n\n<blockquote class=\"wp-block-quote is-layout-flow wp-block-quote-is-layout-flow\"><p>\u201cWe knew that by using only a femtosecond streak camera, the image quality would be limited. So to improve this, we added another camera that acquires a static image. 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.\u201d<\/p><cite>Lihong Wang, the Bren Professor of Medial Engineering and Electrical Engineering at Caltech and the Director of Caltech Optical Imaging Laboratory (COIL)<\/cite><\/blockquote>\n\n\n\n<p>Setting the world record for real-time imaging speed, T-CUP can power a new generation of microscopes for biomedical, materials science, and other applications. This camera represents a fundamental shift, making it possible to analyze interactions between light and matter at an unparalleled temporal resolution.<\/p>\n\n\n\n<p>The first time it was used, the ultrafast camera broke new ground by capturing the temporal focusing of a single femtosecond laser pulse in real time (Fig. 2). This process was recorded in 25 frames taken at an interval of 400 femtoseconds and detailed the light pulse\u2019s shape, intensity, and angle of inclination.&nbsp;<\/p>\n\n\n\n<p>\u201cIt\u2019s an achievement in itself,\u201d says Jinyang Liang, the leading author of this work, who was an engineer in COIL when the research was conducted, \u201cbut we already see possibilities for increasing the speed to up to one quadrillion (1015) frames per second!\u201d Speeds like that are sure to offer insight into as-yet undetectable secrets of the interactions between light and matter.<\/p>\n\n\n\n<p><a rel=\"noreferrer noopener\" href=\"https:\/\/www.nature.com\/articles\/s41377-018-0044-7\" target=\"_blank\"><em>Single-shot Real-time Femtosecond Imaging of Temporal Focusing<\/em><\/a>, Jinyang Liang, Liren Zhu, and Lihong V. Wang, Light: Science &amp; Applications 7, 42 (2018).<br><a rel=\"noreferrer noopener\" href=\"https:\/\/www.osapublishing.org\/optica\/abstract.cfm?uri=optica-5-9-1113\" target=\"_blank\"><em>Single-shot ultrafast optical imaging<\/em><\/a>, Jinyang Liang and Lihong V. Wang Optica 5(9), 1113-1127 (2018)<\/p>\n\n\n<div class=\"content-page-list-ctn\">\n    <h4 class=\"title\">Other articles you might be interested in<\/h4>\n    <div class=\"featured-cta-ctn -trio\">\n                    <div class=\"item jsBlockLink\">\n                <div class=\"image\">\n                                            <img decoding=\"async\" src=\"https:\/\/dev.inrs.ca\/wp-content\/uploads\/telecommunications_299991272-600x400.jpg\" alt=\"Infinitely small, infinitely fast\">\n                                    <\/div>\n                <div class=\"info\">\n                    <a class=\"link\" href=\"\/en\/inrs\/newsroom\/topics\/infinitely-small-infinitely-fast\/\">Infinitely small, infinitely fast<\/a>\n                <\/div>\n            <\/div>\n            <\/div>\n<\/div>","protected":false},"excerpt":{"rendered":"<p>What happens when a new technology is so precise that it operates on a scale beyond our characterization capabilities? For example, the lasers used at INRS produce ultrashort pulses in the femtosecond range (10\u201315 s) that are far too short to visualize. Although some measurements are possible, nothing beats a clear image, says INRS professor and ultrafast imaging specialist Jinyang Liang. He and his colleagues, led by Caltech\u2019s Lihong Wang, have developed what they call T-CUP: the world\u2019s fastest camera, capable of capturing ten trillion (1013) frames per second (Fig. 1). This new camera literally makes it possible to freeze time to see phenomena\u2014and even light!\u2014in extremely slow motion.\u00a0<\/p>\n","protected":false},"author":1,"featured_media":18222,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[688],"tags":[],"sectors":[735,731],"class_list":["post-18221","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-innover-a-linrs-en","sectors-energie-en","sectors-materiaux-en"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v24.6 (Yoast SEO v24.6) - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>World\u2019s fastest camera freezes time at 10 trillion frames per second | INRS<\/title>\n<meta name=\"description\" content=\"What happens when a new technology is so precise that it operates on a scale beyond our characterization capabilities? 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