{"creator_user_id": "1edb17d1-4daf-451d-9a83-ca925c649837", "id": "0553a49b-282c-46ee-aff7-fa37b749ad3e", "metadata_created": "2020-07-20T18:37:42.764228", "metadata_modified": "2020-08-03T11:42:05.208363", "name": "fossil-energy-workshop-on-quantum-information-science-technology-summary-report", "notes": "This report summarizes findings and discussion from the Fossil Energy Workshop on Quantum Information Science & Technology which took place on November 19-21, 2019. \r\nQuantum Information Science (QIS) is expected to profoundly change the practice of science and engineering in the coming decades. It is a rapidly progressing field, fueled by large investments from the private sector and governments. Its importance to the U.S. economy and national security is underscored by the National Quantum Initiative\r\nAct passed in December 2018[1]. QIS includes quantum sensing, quantum communications, quantum simulation experiments, and quantum computation. QIS technology  exploits quantum phenomena for performing tasks that are impossible to do today, such as finding prime factors of large numbers or elucidating reaction mechanisms in\r\ncomplex chemical systems. \r\n\r\nThe opportunities for applying QIS to problems encountered in fossil energy technology development are not known today. This workshop brought together, for the first time, experts in these fields to exchange information and explore potential research opportunities for QIS to advance fossil energy. The goal of the workshop was to develop a\r\nset of priority research opportunities that can inform future research efforts in QIS and build a community of next-generation researchers at the intersection of QIS and fossil energy.", "num_resources": 0, "num_tags": 3, "package_reviewed": true, "private": false, "state": "active", "title": "Fossil Energy Workshop on Quantum Information Science & Technology Summary Report", "type": "publication", "extras": [{"key": "citation", "value": "Suggested Citation (Coauthors listed in the alphabetical order): Bush, S.; Duan, Y; Gilbert, B.; Hussey, A.; Levy, J.; Miller, D.; Pooser, R.; Syamlal, M. Fossil Energy Workshop on Quantum Information Science & Technology Summary Report; U.S. Department of Energy, National Energy Technology Laboratory: Pittsburgh, PA, 2020; DOI: 10.2172/1639026."}, {"key": "netl_product", "value": "no"}, {"key": "osti", "value": "yes"}], "resources": [{"id": "e0d5d1f2-c830-403c-805b-91b709450f74", "package_id": "0553a49b-282c-46ee-aff7-fa37b749ad3e", "revision_id": "f8fb64a7-cfa6-432b-887b-3677e102a494", "url": "https://edx.netl.doe.gov/storage/f/edx/2020/08/2020-08-03T11:40:05.480Z/e0d5d1f2-c830-403c-805b-91b709450f74/qist-workshop-summary-report_final_20200730.pdf", "format": "PDF", "description": "", "hash": "md5:ffd8afd86471a143c982ffd4a4438a07", "position": 0, "name": "qist-workshop-summary-report_final_20200730.pdf", "resource_type": "file.upload", "mimetype": "application/pdf", "mimetype_inner": null, "size": 3382582, "created": "2020-08-03T07:40:11.699000", "last_modified": "2020-08-03T07:40:11.699000", "cache_url": "storage/f/edx/2020/08/2020-08-03T11:40:05.480Z/e0d5d1f2-c830-403c-805b-91b709450f74/qist-workshop-summary-report_final_20200730.pdf", "cache_last_updated": null, "url_type": "upload", "state": "active", "license_type": "notspecified", "folder_id": "root", "owner_org": null, "recycle_removed": false, "fgdc_metadata": false, "rating": null, "owner": "fitzc", "cache_url_updated": "2020-08-03T07:40:11.699", "datastore_active": false, "key": "2020-08-03T11:40:05.480Z/e0d5d1f2-c830-403c-805b-91b709450f74/qist-workshop-summary-report_final_20200730.pdf", "revision_timestamp": "August 3, 2020, 11:40:12 (EST)", "intended_use_auth": false}], "tags": [{"display_name": "Fossil Energy", "id": "a1ef9374-039c-4486-b0f3-6122943c6566", "name": "Fossil Energy", "state": "active", "vocabulary_id": null}, {"display_name": "quantum", "id": "94a8d687-bb7d-4260-83b1-e4461dc942f6", "name": "quantum", "state": "active", "vocabulary_id": null}, {"display_name": "quantum information science", "id": "a4457a9a-6406-4523-a406-05de8db5ee1d", "name": "quantum information science", "state": "active", "vocabulary_id": null}], "osti": {"osti_id": "1639026", "site_code": "Energy Data Exchange", "dataset_type": "AS", "title": "Fossil Energy Workshop on Quantum Information Science & Technology Summary Report", "creators": "Madhava Syamlal; Jeremy Levy; Stephen Bush; Yuhua Duan; Benjamin Gilbert; Aaron Hussey; David Miller; Raphael Pooser", "product_nos": "0553a49b-282c-46ee-aff7-fa37b749ad3e", "contract_nos": "N/A", "org_research_org": "NETL", "publication_date": "2020-07-30", "language": "English", "country": "US", "sponsor_org": "USDOE Office of Fossil Energy (FE)", "site_url": "https://edx.netl.doe.gov/dataset/fossil-energy-workshop-on-quantum-information-science-technology-summary-report", "contact_name": "Coriana Fitz", "contact_org": "National Energy Technology Laboratory", "contact_email": "coriana.fitz@netl.doe.gov", "contact_phone": "412-386-5538", "keywords": "quantum; Fossil Energy; quantum information science", "description": "This report summarizes findings and discussion from the Fossil Energy Workshop on Quantum Information Science & Technology which took place on November 19-21, 2019. \r\nQuantum Information Science (QIS) is expected to profoundly change the practice of science and engineering in the coming decades. It is a rapidly progressing field, fueled by large investments from the private sector and governments. Its importance to the U.S. economy and national security is underscored by the National Quantum Initiative\r\nAct passed in December 2018[1]. QIS includes quantum sensing, quantum communications, quantum simulation experiments, and quantum computation. QIS technology  exploits quantum phenomena for performing tasks that are impossible to do today, such as finding prime factors of large numbers or elucidating reaction mechanisms in\r\ncomplex chemical systems. \r\n\r\nThe opportunities for applying QIS to problems encountered in fossil energy technology development are not known today. This workshop brought together, for the first time, experts in these fields to exchange information and explore potential research opportunities for QIS to advance fossil energy. The goal of the workshop was to develop a\r\nset of priority research opportunities that can inform future research efforts in QIS and build a community of next-generation researchers at the intersection of QIS and fossil energy.", "doi": "10.2172", "creator_id": "1edb17d1-4daf-451d-9a83-ca925c649837", "timestamp": "2020-08-03 11:42", "product_type": "36f15409-ba10-49d8-bbf5-060e164d98ea", "medium_code": "f3499d0a-aa6a-418d-8951-89466e57e4c4", "access_limitation": "57e51c9e-b947-44c2-b622-32b0adf6a6c7", "released_date": "07/20/2020"}, "submission_authors": []}