{"links":{"self":"http://dataportal.arc.gov.au/NCGP/API/grants/DE260101824"},"data":{"type":"grant-details","id":"DE260101824","attributes":{"code":"DE260101824","administering-organisation":"The University of New South Wales","announcement-administering-organisation":"The University of New South Wales","scheme-name":"Discovery Early Career Researcher Award","grant-status":"Active","funding-commencement-year":2026,"years-funded":3,"project-start-date":"2027-11-01","anticipated-end-date":"2030-10-31","grant-summary":"New Tools in Effective Field Theory for Physics beyond the Standard Model. This project aims to develop new theoretical and computational tools for effective field theories, crucial for exploring physics beyond the Standard Model. \nThis project expects to provide methods for managing the complexity of the Standard Model Effective Field Theory arising from its large number of free parameters, while enhancing the precision of its predictions.\nExpected outcomes include a generalized geometric framework for effective field theories, as well as a fully automated phenomenology pipeline to test new physics models against experimental data. \nThis research will equip both the Australian and international particle physics community with powerful tools to bridge theory and experiment at current and future facilities.","funding-current":534117.00,"funding-at-announcement":529878,"investigators-current":[{"title":"Dr","firstName":"Julie","familyName":"Pagès","roleName":"Discovery Early Career Researcher Award","roleCode":"DECRA","isFellowship":true,"orcidIdentifier":"0000-0002-0656-3053 "}],"investigators-at-announcement":[{"title":"Dr","firstName":"Julie","familyName":"Pagès","roleName":"Discovery Early Career Researcher Award","roleCode":"DECRA","isFellowship":true,"orcidIdentifier":"0000-0002-0656-3053 "}],"organisations-current":[{"organisationName":"The University of New South Wales","roleName":"Administering Organisation","state":"NSW"}],"organisations-at-announcement":[{"organisationName":"The University of New South Wales","roleName":"Administering Organisation","state":"NSW"}],"field-of-research":[{"isPrimary":true,"code":"5107","name":"Particle and High Energy Physics","type":"FOR20"},{"isPrimary":false,"code":"510703","name":"Particle Physics","type":"FOR20"}],"socio-economic-objective":[{"code":"280120","name":"Expanding Knowledge In the Physical Sciences","type":"SEO20"}],"international-collaboration":["Germany","Spain","Switzerland","Taiwan","United States of America"],"lief-register":[],"achievement-summary":null,"national-interest-test-statement":"The project seeks to develop new tools to address one of the deepest questions in science: what are the fundamental laws of nature? By advancing Effective Field Theory techniques, it will help physicists discover and understand new particles and forces beyond current knowledge, using experiments such as the Large Hadron Collider. This research will fill a key gap in Australia’s theoretical physics landscape by complementing existing expertise in developing new theories and testing them against data. It will boost Australia’s intellectual reputation through high-impact scientific publications and conference presentations while strengthening its role in international research through collaborations in Europe and the US. The project will also provide advanced training in mathematics and physics for research students, helping to build a highly skilled workforce that benefits both academia and industry. Moreover, outreach activities at UNSW and beyond will inspire the next generation of Australian scientists to unravel the mysteries of the universe and uncover new fundamental laws of nature."}}}