_version_ 1866912301275152384
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