{"id":14515,"date":"2025-05-20T10:00:00","date_gmt":"2025-05-20T10:00:00","guid":{"rendered":"https:\/\/modernsciences.org\/staging\/4414\/?p=14515"},"modified":"2025-05-16T06:18:36","modified_gmt":"2025-05-16T06:18:36","slug":"quantum-computer-simulates-molecular-behavior-chemistry-may-2025","status":"publish","type":"post","link":"https:\/\/modernsciences.org\/staging\/4414\/quantum-computer-simulates-molecular-behavior-chemistry-may-2025\/","title":{"rendered":"Australian researchers use a quantum computer to simulate how real molecules\u00a0behave"},"content":{"rendered":"\n\n\n<div class=\"theconversation-article-body\">\n    <figure>\n      <img  decoding=\"async\"  src=\"data:image\/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABAQMAAAAl21bKAAAAA1BMVEUAAP+KeNJXAAAAAXRSTlMAQObYZgAAAAlwSFlzAAAOxAAADsQBlSsOGwAAAApJREFUCNdjYAAAAAIAAeIhvDMAAAAASUVORK5CYII=\"  class=\" pk-lazyload\"  data-pk-sizes=\"auto\"  data-pk-src=\"https:\/\/images.theconversation.com\/files\/668311\/original\/file-20250516-56-rk1xj1.jpg?ixlib=rb-4.1.0&#038;rect=0%2C115%2C2203%2C1239&#038;q=45&#038;auto=format&#038;w=754&#038;fit=clip\" >\n        <figcaption>\n          \n          <span class=\"attribution\"><span class=\"source\">University of Sydney Nano Institute<\/span><\/span>\n        <\/figcaption>\n    <\/figure>\n\n  <span><a href=\"https:\/\/theconversation.com\/profiles\/ivan-kassal-2394824\" target=\"_blank\" rel=\"noopener\">Ivan Kassal<\/a>, <em><a href=\"https:\/\/theconversation.com\/institutions\/university-of-sydney-841\" target=\"_blank\" rel=\"noopener\">University of Sydney<\/a><\/em> and <a href=\"https:\/\/theconversation.com\/profiles\/tingrei-tan-2394891\" target=\"_blank\" rel=\"noopener\">Tingrei Tan<\/a>, <em><a href=\"https:\/\/theconversation.com\/institutions\/university-of-sydney-841\" target=\"_blank\" rel=\"noopener\">University of Sydney<\/a><\/em><\/span>\n\n  <p>When a molecule absorbs light, it undergoes a whirlwind of quantum-mechanical transformations. Electrons jump between energy levels, atoms vibrate, and chemical bonds shift \u2014 all within millionths of a billionth of a second. <\/p>\n\n<p>These processes underpin everything from photosynthesis in plants and DNA damage from sunlight, to the operation of solar cells and light-powered cancer therapies.<\/p>\n\n<p>Yet despite their importance, chemical processes driven by light are difficult to simulate accurately. Traditional computers struggle, because it takes vast computational power to simulate this quantum behaviour. <\/p>\n\n<p>Quantum computers, by contrast, are themselves quantum systems \u2014 so quantum behaviour comes naturally. This makes quantum computers natural candidates for simulating chemistry.<\/p>\n\n<p>Until now, quantum devices have only been able to calculate unchanging things, such as the energies of molecules. <a href=\"https:\/\/doi.org\/10.1021\/jacs.5c03336\" target=\"_blank\" rel=\"noopener\">Our study<\/a>, published this week in the Journal of the American Chemical Society, demonstrates we can also model how those molecules change over time.<\/p>\n\n<p>We experimentally simulated how specific real molecules behave after absorbing light.<\/p>\n\n<h2 id=\"simulating-reality-with-a-single-ion\">Simulating reality with a single ion<\/h2>\n\n<p>We used what is called a trapped-ion quantum computer. This works by manipulating individual atoms in a vacuum chamber, held in place with electromagnetic fields.<\/p>\n\n<p>Normally, quantum computers store information using quantum bits, or qubits. However, to simulate the behaviour of the molecules, we also used vibrations of the atoms in the computer called \u201cbosonic modes\u201d.<\/p>\n\n<p>This technique is called mixed qudit-boson simulation. It dramatically reduces how big a quantum computer you need to simulate a molecule.<\/p>\n\n<figure class=\"align-center zoomable\">\n            <a href=\"https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=45&amp;auto=format&amp;w=1000&amp;fit=clip\" target=\"_blank\" rel=\"noopener\"><img  decoding=\"async\"  alt=\"Photo of a person adjusting a complex device.\"  src=\"data:image\/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABAQMAAAAl21bKAAAAA1BMVEUAAP+KeNJXAAAAAXRSTlMAQObYZgAAAAlwSFlzAAAOxAAADsQBlSsOGwAAAApJREFUCNdjYAAAAAIAAeIhvDMAAAAASUVORK5CYII=\"  class=\" pk-lazyload\"  data-pk-sizes=\"auto\"  data-ls-sizes=\"(min-width: 1466px) 754px, (max-width: 599px) 100vw, (min-width: 600px) 600px, 237px\"  data-pk-src=\"https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=45&amp;auto=format&amp;w=754&amp;fit=clip\"  data-pk-srcset=\"https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=45&amp;auto=format&amp;w=600&amp;h=400&amp;fit=crop&amp;dpr=1 600w, https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=30&amp;auto=format&amp;w=600&amp;h=400&amp;fit=crop&amp;dpr=2 1200w, https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=15&amp;auto=format&amp;w=600&amp;h=400&amp;fit=crop&amp;dpr=3 1800w, https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=45&amp;auto=format&amp;w=754&amp;h=503&amp;fit=crop&amp;dpr=1 754w, https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=30&amp;auto=format&amp;w=754&amp;h=503&amp;fit=crop&amp;dpr=2 1508w, https:\/\/images.theconversation.com\/files\/668312\/original\/file-20250516-62-4s2apj.jpg?ixlib=rb-4.1.0&amp;q=15&amp;auto=format&amp;w=754&amp;h=503&amp;fit=crop&amp;dpr=3 2262w\" ><\/a>\n            <figcaption>\n              <span class=\"caption\">Using a new technique allows realistic simulations to be carried out with small quantum computers.<\/span>\n              <span class=\"attribution\"><span class=\"source\">Nicola Bailey<\/span><\/span>\n            <\/figcaption>\n          <\/figure>\n\n<p>We simulated the behaviour of three molecules absorbing light: allene, butatriene, and pyrazine. Each molecule features complex electronic and vibrational interactions after absorbing light, making them ideal test cases. <\/p>\n\n<p>Our simulation, which used a laser and a single atom in the quantum computer, slowed these processes down by a factor of 100 billion. In the real world, the interactions take femtoseconds, but our simulation of them played out in milliseconds \u2013 slow enough for us to see what happened.<\/p>\n\n<h2 id=\"a-million-times-more-efficient\">A million times more efficient<\/h2>\n\n<p>What makes our experiment particularly significant is the size of the quantum computer we used. <\/p>\n\n<p>Performing the same simulation with a traditional quantum computer (without using bosonic modes) would require 11 qubits, and to carry out roughly 300,000 \u201centangling\u201d operations without errors. This is well beyond the reach of current technology.<\/p>\n\n<p>By contrast, our approach accomplished the task by zapping a single trapped ion with a single laser pulse. We estimate our method is at least a million times more resource-efficient than standard quantum approaches.<\/p>\n\n<p>We also simulated \u201copen-system\u201d dynamics, where the molecule interacts with its environment. This is typically a much harder problem for classical computers. <\/p>\n\n<p>By injecting controlled noise into the ion\u2019s environment, we replicated how real molecules lose energy. This showed environmental complexity can also be captured by quantum simulation.<\/p>\n\n<h2 id=\"whats-next\">What\u2019s next?<\/h2>\n\n<p>This work is an important step forward for quantum chemistry. Even though current quantum computers are still limited in scale, our methods show that small, well-designed experiments can already tackle problems of real scientific interest.<\/p>\n\n<p>Simulating the real-world behaviour of atoms and molecules is a key goal of quantum chemistry. It will make it easier to understand the properties of different materials, and may accelerate breakthroughs in medicine, materials and energy.<\/p>\n\n<p>We believe that with a modest increase in scale \u2014 to perhaps 20 or 30 ions \u2014 quantum simulations could tackle chemical systems too complex for any classical supercomputer. That would open the door to rapid advances in drug development, clean energy, and our fundamental understanding of chemical processes that drive life itself.<!-- Below is The Conversation's page counter tag. Please DO NOT REMOVE. --><img  loading=\"lazy\"  decoding=\"async\"  src=\"data:image\/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABAQMAAAAl21bKAAAAA1BMVEUAAP+KeNJXAAAAAXRSTlMAQObYZgAAAAlwSFlzAAAOxAAADsQBlSsOGwAAAApJREFUCNdjYAAAAAIAAeIhvDMAAAAASUVORK5CYII=\"  alt=\"The Conversation\"  width=\"1\"  height=\"1\"  style=\"border: none !important; box-shadow: none !important; margin: 0 !important; max-height: 1px !important; max-width: 1px !important; min-height: 1px !important; min-width: 1px !important; opacity: 0 !important; outline: none !important; padding: 0 !important\"  referrerpolicy=\"no-referrer-when-downgrade\"  class=\" pk-lazyload\"  data-pk-sizes=\"auto\"  data-pk-src=\"https:\/\/counter.theconversation.com\/content\/256870\/count.gif?distributor=republish-lightbox-basic\" ><!-- End of code. If you don't see any code above, please get new code from the Advanced tab after you click the republish button. The page counter does not collect any personal data. More info: https:\/\/theconversation.com\/republishing-guidelines --><\/p>\n\n  <p><span><a href=\"https:\/\/theconversation.com\/profiles\/ivan-kassal-2394824\" target=\"_blank\" rel=\"noopener\">Ivan Kassal<\/a>, Professor of Chemical Physics, <em><a href=\"https:\/\/theconversation.com\/institutions\/university-of-sydney-841\" target=\"_blank\" rel=\"noopener\">University of Sydney<\/a><\/em> and <a href=\"https:\/\/theconversation.com\/profiles\/tingrei-tan-2394891\" target=\"_blank\" rel=\"noopener\">Tingrei Tan<\/a>, Research Fellow, Quantum Control Laboratory, <em><a href=\"https:\/\/theconversation.com\/institutions\/university-of-sydney-841\" target=\"_blank\" rel=\"noopener\">University of Sydney<\/a><\/em><\/span><\/p>\n\n  <p>This article is republished from <a href=\"https:\/\/theconversation.com\" target=\"_blank\" rel=\"noopener\">The Conversation<\/a> under a Creative Commons license. Read the <a href=\"https:\/\/theconversation.com\/australian-researchers-use-a-quantum-computer-to-simulate-how-real-molecules-behave-256870\" target=\"_blank\" rel=\"noopener\">original article<\/a>.<\/p>\n<\/div>\n\n","protected":false},"excerpt":{"rendered":"University of Sydney Nano Institute Ivan Kassal, University of Sydney and Tingrei Tan, University of Sydney When a&hellip;\n","protected":false},"author":1197,"featured_media":14517,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"nf_dc_page":"","fifu_image_url":"https:\/\/upload.wikimedia.org\/wikipedia\/commons\/3\/3d\/Measuring_a_qubit_leaves_no_room_for_error.jpg","fifu_image_alt":"","footnotes":""},"categories":[16],"tags":[10345,10353,10352,10363,10359,10362,10346,10350,10349,10360,10361,1680,10357,10356,10340,10355,10347,10344,10366,10341,10365,10343,10354,10364,10342,10358,10348,10351],"class_list":["post-14515","post","type-post","status-publish","format-standard","has-post-thumbnail","category-tech","tag-allene","tag-bosonic-modes","tag-butatriene","tag-chemical-reactivity","tag-drug-discovery","tag-energy-dissipation-in-molecules","tag-environmental-decoherence","tag-femtochemistry","tag-femtosecond-processes","tag-journal-of-the-american-chemical-society","tag-light-driven-reactions","tag-material-science","tag-molecular-dynamics","tag-open-system-dynamics","tag-photochemistry","tag-photoexcited-molecules","tag-pyrazine","tag-quantum-chemistry","tag-quantum-computing-in-chemistry","tag-quantum-efficiency","tag-quantum-noise-injection","tag-quantum-simulation","tag-quantum-systems-modeling","tag-quantum-enhanced-research","tag-qudit-boson-simulation","tag-single-ion-quantum-computing","tag-trapped-ion-quantum-computer","tag-vibrational-electronic-coupling","cs-entry","cs-video-wrap"],"aioseo_notices":[],"aioseo_head":"\n\t\t<!-- All in One SEO 4.9.9 - aioseo.com -->\n\t<meta name=\"description\" content=\"Ivan Kassal, University of Sydney and Tingrei Tan, University of Sydney When a molecule absorbs light, it undergoes a whirlwind of quantum-mechanical transformations. 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