{"id":892279,"date":"2026-04-01T06:17:03","date_gmt":"2026-04-01T05:17:03","guid":{"rendered":"https:\/\/www.electronicsweekly.com\/?p=892279"},"modified":"2026-04-01T06:38:17","modified_gmt":"2026-04-01T05:38:17","slug":"nist-develops-high-temperature-photonics-packaging","status":"publish","type":"post","link":"https:\/\/www.electronicsweekly.com\/news\/business\/nist-develops-high-temperature-photonics-packaging-2026-04\/","title":{"rendered":"NIST develops high temperature photonics packaging"},"content":{"rendered":"<div class=\"nist-block\">\n<p style=\"text-align: left;\">IollNIST (The US National Institute of Science and Technology) scientists have developed a new process for packaging photonic integrated circuits so they can survive and operate in some of the most extreme environments imaginable.<\/p><div class=\"elect-content\" style=\"margin-left: auto; margin-right: auto; text-align: center; \" id=\"elect-2104772505\"><div id=\"x02\">\r\n<script type=\"text\/javascript\"> if ($(window).width() <= 768) { googletag.display('x02'); } <\/script>\r\n<\/div>\r\n<\/div>\n<p>The advance could allow photonic chip-based technologies to operate in deep-space probes, inside nuclear reactors, in ultrahigh vacuum systems, and at temperatures both near absolute zero and in scorchingly hot industrial settings.<\/p><div class=\"elect-test\" style=\"margin-left: auto; margin-right: auto; text-align: center; \" id=\"elect-912658990\"><div id=\"DFP-EW-InRead1\">\r\n<script type=\"text\/javascript\"> if ($(window).width() > 768) { googletag.display('DFP-EW-InRead1'); } <\/script>\r\n<\/div>\r\n<BR>\r\n<\/div>\n<p>Although the new process now requires several days to complete, engineers could shorten the time dramatically, making the technique suitable for large-scale manufacturing.<\/p><div class=\"elect-post-content-2\" style=\"margin-left: auto; margin-right: auto; text-align: center; \" id=\"elect-754211119\"><div id=\"DFP-EW-InRead1-Mobile\">\r\n<script type=\"text\/javascript\"> if ($(window).width() <= 768) { googletag.display('DFP-EW-InRead1-Mobile'); } <\/script>\r\n<\/div>\r\n<\/div>\n<\/div>\n<div class=\"nist-block\">\n<div class=\"text-with-summary\">\n<figure class=\"nist-image--lightbox nist-image lightbox-image\" data-lightbox=\"https:\/\/www.nist.gov\/sites\/default\/files\/styles\/2800_x_2800_limit\/public\/images\/2026\/02\/20\/Art_image_of_HCB-bonded_PIC_compatible_to_cryogenic%252C_high_T%252C_ionizing_radiation%252C_and_UHV_ver2.png?itok=r-bHoZsA\" data-media-id=\"753211\" data-once=\"lightbox-image\"><a rel=\"image\" class=\"nist-image__lightbox-trigger\" href=\"https:\/\/www.nist.gov\/sites\/default\/files\/styles\/2800_x_2800_limit\/public\/images\/2026\/02\/20\/Art_image_of_HCB-bonded_PIC_compatible_to_cryogenic%252C_high_T%252C_ionizing_radiation%252C_and_UHV_ver2.png?itok=r-bHoZsA\" target=\"_blank\" rel=\"nofollow\" aria-label=\"Enlarge this image\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.nist.gov\/sites\/default\/files\/styles\/960_x_960_limit\/public\/images\/2026\/02\/20\/Art_image_of_HCB-bonded_PIC_compatible_to_cryogenic%252C_high_T%252C_ionizing_radiation%252C_and_UHV_ver2.png?itok=T3_EO5N4\" alt=\"Illustration of a rectangular chip surrounded with both blue cold and red heat, with blue light shooting up from its components. \" width=\"960\" height=\"640\" \/><\/a><figcaption class=\"nist-image__caption\">\n<div class=\"nist-image__caption-content\" data-caption-editable=\"true\">\n<p>Illustration of a photonic integrated circuit, with components bonded using a technique that enables the circuit to survive and operate in extreme environments.<\/p>\n<\/div>\n<div class=\"nist-image__credit\"><span class=\"nist-image__credit-label\">Credit:<\/span> NIST<\/div>\n<\/figcaption><\/figure>\n<p>\u201cOur study marks a major step toward bringing the speed and efficiency of photonics into environments where conventional semiconductor chips powered by electric current and photonics chips packaged using traditional methods have not been able to operate,\u201d said NIST physicist Nikolai Klimov, who led the project.<\/p>\n<p>Photonic integrated chips have a particular advantage because they transmit data at high speeds while consuming far less power than conventional chips \u2014 but only if the packaging can keep delicate optical connections perfectly aligned.<\/p>\n<p>Their use in demanding environments has remained limited. Traditional packaging fails to maintain reliable connections between photonic chips and optical fibers in extreme conditions \u2014 such as intense radiation, ultrahigh vacuum, blistering heat or frigid temperatures.<\/p>\n<p>Many quantum technologies, including several leading quantum computing platforms, require either ultrahigh vacuum environments, temperatures just a few degrees above absolute zero, or both. Space missions, nuclear reactor cores and particle accelerators expose instruments to intense radiation. Industrial and energy applications demand sensors that can withstand heat, pressure and corrosive environments.<\/p>\n<p>To make it possible for photonic integrated chips to work in these extreme environments, the researchers overcame a surprisingly stubborn challenge: reliably attaching an optical fiber to a photonic chip.<\/p>\n<p>Today\u2019s standard adhesives \u2014 organic polymer glues \u2014 tend to crack, outgas or degrade when exposed to extreme cold, intense radiation, vacuum or heat. Once that bond fails, the chip can no longer function.<\/p>\n<p>To solve this problem, NIST scientists adapted a technique originally used by NASA to assemble large, ultrastable optical systems for both space-based and ground-based astronomical systems.<\/p>\n<p>The method, called hydroxide catalysis bonding (HCB), creates an inorganic, glasslike chemical bond between the optical fiber and the photonic chip.<\/p>\n<p>Instead of relying on glue, the process uses a tiny amount of sodium hydroxide solution to fuse the surfaces at the molecular level, forming a rigid, stable connection.<\/p>\n<p>The NIST team demonstrated for the first time that the HCB technique can achieve the precise optical fiber alignment and efficient light coupling that photonic circuits require, while still forming a robust package able to withstand harsh environments.<\/p>\n<p>To test that resilience, the researchers exposed the packaged photonic chip to a series of extreme conditions.<\/p>\n<p>Even after the team chilled the assembly to cryogenic temperatures, plunged the material through rapid swings in temperature, bombarded it with intense ionizing radiation, and placed it under high vacuum, the HCB-bonded fiber connection remained intact. This allowed the team to verify that the chip itself continued to function normally.<\/p>\n<p>Although high-temperature testing could not be performed directly on the packaged photonic chip due to limitations of the commercial optical fibers available, additional studies performed by the team showed that HCB-based photonic packaging remains mechanically stable at temperatures far higher than what conventional adhesives can withstand.<\/p>\n<p>Together, these results point to a packaging method with exceptional resilience across a remarkably wide environmental range.<\/p>\n<p>\u201cThis approach creates a bond that is as resilient as the optical fiber itself,\u201d said Klimov. \u201cIt allows photonic integrated circuits to go places they simply couldn\u2019t go before.\u201d<\/p>\n<p>Although the current bonding process requires several days to complete, the researchers emphasize that this is an engineering issue rather than a fundamental barrier. With focused development, engineers could dramatically shorten the time, making the technique suitable for large-scale manufacturing.<\/p>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"<p>IollNIST (The US National Institute of Science and Technology) scientists have developed a new process for packaging photonic integrated circuits so they can survive and operate in some of the &#8230;<\/p>\n","protected":false},"author":3,"featured_media":892393,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[16039],"tags":[],"class_list":["post-892279","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-business"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v26.7 (Yoast SEO v27.2) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>NIST develops high temperature photonics packaging | Electronics 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