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| Format: | Preprint |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2503.23619 |
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| _version_ | 1866912301275152384 |
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| author | Arbey, Alexandre Boyd, Jamie Britzger, Daniel Cartaro, Concetta Chen, Gang David, Gabor Denisov, Dmitri Diaconu, Cristinel Duellmann, Dirk Ebert, Marcus Elsen, Eckhard Fanini, Jacopo Fitzgerald, Dillon S. Fuks, Benjamin Ganis, Gerardo Geiser, Achim Hara, Takanori Heinrich, Lukas Hildreth, Michael D. Hogan, Julie M. Klest, Henry Kraml, Sabine Lançon, Eric Lange, Clemens Lassila-Perini, Kati Levonian, Sergey Liko, Dietrich Mariotti, Chiara Marshall, Zach McCauley, Thomas Diberder, François Le Meur, Jean-Yves Le Myatt, Gerald Potekhin, Maxim Roney, Michael Saiz, Pablo Schellman, Heidi Gonzalez, Jose Benito Schröder, Matthias Schwickerath, Ulrich Smith, Tim South, David Stark, Giordon Šimko, Tibor Timmermans, Jan Verbytskyi, Andrii Wiebalck, Arne Zhang, Zhiqing |
| author_facet | Arbey, Alexandre Boyd, Jamie Britzger, Daniel Cartaro, Concetta Chen, Gang David, Gabor Denisov, Dmitri Diaconu, Cristinel Duellmann, Dirk Ebert, Marcus Elsen, Eckhard Fanini, Jacopo Fitzgerald, Dillon S. Fuks, Benjamin Ganis, Gerardo Geiser, Achim Hara, Takanori Heinrich, Lukas Hildreth, Michael D. Hogan, Julie M. Klest, Henry Kraml, Sabine Lançon, Eric Lange, Clemens Lassila-Perini, Kati Levonian, Sergey Liko, Dietrich Mariotti, Chiara Marshall, Zach McCauley, Thomas Diberder, François Le Meur, Jean-Yves Le Myatt, Gerald Potekhin, Maxim Roney, Michael Saiz, Pablo Schellman, Heidi Gonzalez, Jose Benito Schröder, Matthias Schwickerath, Ulrich Smith, Tim South, David Stark, Giordon Šimko, Tibor Timmermans, Jan Verbytskyi, Andrii Wiebalck, Arne Zhang, Zhiqing |
| contents | Data preservation significantly increases the scientific output of high-energy physics experiments during and after data acquisition. For new and ongoing experiments, the careful consideration of long-term data preservation in the experimental design contributes to improving computational efficiency and strengthening the scientific activity in HEP through Open Science methodologies. This contribution is based on 15 years of experience of the DPHEP collaboration in the field of data preservation and focuses on aspects relevant for the strategic programming of particle physics in Europe: the preparation of future programs using data sets preserved from previous similar experiments (e.g. HERA for EIC), and the use of LHC data long after the end of the data taking. The lessons learned from past collider experiments and recent developments open the way to a number of recommendations for the full exploitation of the investments made in large HEP experiments. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2503_23619 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Data Preservation in High Energy Physics Arbey, Alexandre Boyd, Jamie Britzger, Daniel Cartaro, Concetta Chen, Gang David, Gabor Denisov, Dmitri Diaconu, Cristinel Duellmann, Dirk Ebert, Marcus Elsen, Eckhard Fanini, Jacopo Fitzgerald, Dillon S. Fuks, Benjamin Ganis, Gerardo Geiser, Achim Hara, Takanori Heinrich, Lukas Hildreth, Michael D. Hogan, Julie M. Klest, Henry Kraml, Sabine Lançon, Eric Lange, Clemens Lassila-Perini, Kati Levonian, Sergey Liko, Dietrich Mariotti, Chiara Marshall, Zach McCauley, Thomas Diberder, François Le Meur, Jean-Yves Le Myatt, Gerald Potekhin, Maxim Roney, Michael Saiz, Pablo Schellman, Heidi Gonzalez, Jose Benito Schröder, Matthias Schwickerath, Ulrich Smith, Tim South, David Stark, Giordon Šimko, Tibor Timmermans, Jan Verbytskyi, Andrii Wiebalck, Arne Zhang, Zhiqing High Energy Physics - Experiment Data preservation significantly increases the scientific output of high-energy physics experiments during and after data acquisition. For new and ongoing experiments, the careful consideration of long-term data preservation in the experimental design contributes to improving computational efficiency and strengthening the scientific activity in HEP through Open Science methodologies. This contribution is based on 15 years of experience of the DPHEP collaboration in the field of data preservation and focuses on aspects relevant for the strategic programming of particle physics in Europe: the preparation of future programs using data sets preserved from previous similar experiments (e.g. HERA for EIC), and the use of LHC data long after the end of the data taking. The lessons learned from past collider experiments and recent developments open the way to a number of recommendations for the full exploitation of the investments made in large HEP experiments. |
| title | Data Preservation in High Energy Physics |
| topic | High Energy Physics - Experiment |
| url | https://arxiv.org/abs/2503.23619 |