Big DAPHNE BIG DAta in PHysics NEtwork Network

Big. DAPHNE: BIG DAta in PHysics NEtwork Network for an Innovative Doctorate Training in Fundamental Physics Research and Big Data Handling a proposal for an Innovative Training Network (ITN) for a European Joint Degree (EJD) N. Konstantinidis, R. Nikolaidou, C. Petridou, C. Roda, S. Spagnolo ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 1

Aim of today’s meeting ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 2

Some already proposed comments The proposal is quite clearly written however we have been too much focused on the Big. Data side and not enough in physics • in the abstract put more emphasis on physics and in particular in commonalities • start the proposal discussing physics and than move to Big. Data • highlight connections in methodologies but also on scientific objectives • section 1. 1 should concentrate on RESEARCH while section 1. 2 on training • Research for us is mainly physics, we do not claim we do research in Big. Data, we apply methodologies ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 3

ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 4

Some already proposed comments - need to revise the physics objectives considering the timing - for ATLAS focus as much as possible on DM searches - highlights possibility for Ph. D students to pass from one environment to another one once graduated - gives a structure to cross-dissemination between fields i. e. series of seminar, connect to Ph. D from different field … - highlight the courses in different fields that students could follow at different institutions - which courses on cosmology in Pisa, UCL, … - which courses in Particle physics … - which courses on General relativity… ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 5

ATLAS -Precision tests of Standard Model particularly in the Higgs sector - Search for Dark Matter candidates by signatures or using models ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 6

EUCLID - Dark Energy origin - Dark Matter origin Euclid will explore how the Universe evolved over the past 10 billion years to address questions related to fundamental physics and cosmology on the nature and properties of dark energy, dark matter and gravity, as well as on the physics of the early universe and the initial conditions which seed the formation of cosmic structure. The imprints of dark energy and gravity will be tracked by using two complementary cosmological probes to capture signatures of the expansion rate of the Universe and the growth of cosmic structures: Weak gravitational Lensing and Galaxy Clustering (Baryonic Acoustic Oscillations and Redshift Space Distortion). ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 7

Virgo / Ligo - Direct detection of gravitational waves of cosmic origin - test structure of general relativity ITN/EJD – Big. DAPHNE – 11. 2016 C. Roda Universita` e INFN Pisa 8

Detectors ATLAS ITN/EJD – Big. DAPHNE – 11. 2016 Euclid 1. 2 m diameter Si. Carbied mirror telescope Virgo detector C. Roda Universita` e INFN Pisa 9

Timescale year Project 2017 organization – re-start Run 2 ESR recruitment 2018 ESR – Ph. D yr 1 End of Run 2 with 150 fb**-1 2019 ESR – Ph. D yr 2 LS 1 – phase 1 upgrade 2020 ESR – Ph. D yr 3 LS 1 – phase 1 upgrade ITN/EJD – Big. DAPHNE – 11. 2016 ATLAS EUCLID VIRGO Launch C. Roda Universita` e INFN Pisa 10