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| Format: | Preprint |
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2024
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| Online Access: | https://arxiv.org/abs/2412.10779 |
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| _version_ | 1866910745446318080 |
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| author | Palni, Prabhakar Sarkar, Amal Das, Santosh K. Rathore, Anuraag Shoaib, Syed Khuntia, Arvind Jaiswal, Amaresh Roy, Victor Panda, Ankit Kumar Bagchi, Partha Mishra, Hiranmaya Biswas, Deeptak Petreczky, Peter Sharma, Sayantan Pradhan, Kshitish Kumar Scaria, Ronald Sahu, Dushmanta Sahoo, Raghunath Das, Arpan Mohapatra, Ranjita K Nayak, Jajati K. Chatterjee, Rupa Mustafa, Munshi G R., Aswathy Menon K. Prasad, Suraj Mallick, Neelkamal Panday, Pushpa Patra, Binoy Krishna Deb, Paramita Varma, Raghava Dwibedi, Ashutosh Win, Thandar Zaw Nayak, Subhalaxmi Aung, Cho Win Ghosh, Sabyasachi Vempati, Sesha Singh, Sunny Kumar Kurian, Manu Chandra, Vinod Banerjee, Soham Sumit Kumar, Rohit Mondal, Rajkumar Chaudhuri, Nilanjan Roy, Pradip Sarkar, Sourav Kumar, Lokesh |
| author_facet | Palni, Prabhakar Sarkar, Amal Das, Santosh K. Rathore, Anuraag Shoaib, Syed Khuntia, Arvind Jaiswal, Amaresh Roy, Victor Panda, Ankit Kumar Bagchi, Partha Mishra, Hiranmaya Biswas, Deeptak Petreczky, Peter Sharma, Sayantan Pradhan, Kshitish Kumar Scaria, Ronald Sahu, Dushmanta Sahoo, Raghunath Das, Arpan Mohapatra, Ranjita K Nayak, Jajati K. Chatterjee, Rupa Mustafa, Munshi G R., Aswathy Menon K. Prasad, Suraj Mallick, Neelkamal Panday, Pushpa Patra, Binoy Krishna Deb, Paramita Varma, Raghava Dwibedi, Ashutosh Win, Thandar Zaw Nayak, Subhalaxmi Aung, Cho Win Ghosh, Sabyasachi Vempati, Sesha Singh, Sunny Kumar Kurian, Manu Chandra, Vinod Banerjee, Soham Sumit Kumar, Rohit Mondal, Rajkumar Chaudhuri, Nilanjan Roy, Pradip Sarkar, Sourav Kumar, Lokesh |
| contents | The second Hot QCD Matter 2024 conference at IIT Mandi focused on various ongoing topics in high-energy heavy-ion collisions, encompassing theoretical and experimental perspectives. This proceedings volume includes 19 contributions that collectively explore diverse aspects of the bulk properties of hot QCD matter. The topics encompass the dynamics of electromagnetic fields, transport properties, hadronic matter, spin hydrodynamics, and the role of conserved charges in high-energy environments. These studies significantly enhance our understanding of the complex dynamics of hot QCD matter, the quark-gluon plasma (QGP) formed in high-energy nuclear collisions. Advances in theoretical frameworks, including hydrodynamics, spin dynamics, and fluctuation studies, aim to improve theoretical calculations and refine our knowledge of the thermodynamic properties of strongly interacting matter. Experimental efforts, such as those conducted by the ALICE and STAR collaborations, play a vital role in validating these theoretical predictions and deepening our insight into the QCD phase diagram, collectivity in small systems, and the early-stage behavior of strongly interacting matter. Combining theoretical models with experimental observations offers a comprehensive understanding of the extreme conditions encountered in relativistic heavy-ion and proton-proton collisions. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2412_10779 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Dynamics of Hot QCD Matter 2024 -- Bulk Properties Palni, Prabhakar Sarkar, Amal Das, Santosh K. Rathore, Anuraag Shoaib, Syed Khuntia, Arvind Jaiswal, Amaresh Roy, Victor Panda, Ankit Kumar Bagchi, Partha Mishra, Hiranmaya Biswas, Deeptak Petreczky, Peter Sharma, Sayantan Pradhan, Kshitish Kumar Scaria, Ronald Sahu, Dushmanta Sahoo, Raghunath Das, Arpan Mohapatra, Ranjita K Nayak, Jajati K. Chatterjee, Rupa Mustafa, Munshi G R., Aswathy Menon K. Prasad, Suraj Mallick, Neelkamal Panday, Pushpa Patra, Binoy Krishna Deb, Paramita Varma, Raghava Dwibedi, Ashutosh Win, Thandar Zaw Nayak, Subhalaxmi Aung, Cho Win Ghosh, Sabyasachi Vempati, Sesha Singh, Sunny Kumar Kurian, Manu Chandra, Vinod Banerjee, Soham Sumit Kumar, Rohit Mondal, Rajkumar Chaudhuri, Nilanjan Roy, Pradip Sarkar, Sourav Kumar, Lokesh Nuclear Theory High Energy Physics - Experiment High Energy Physics - Phenomenology High Energy Physics - Theory The second Hot QCD Matter 2024 conference at IIT Mandi focused on various ongoing topics in high-energy heavy-ion collisions, encompassing theoretical and experimental perspectives. This proceedings volume includes 19 contributions that collectively explore diverse aspects of the bulk properties of hot QCD matter. The topics encompass the dynamics of electromagnetic fields, transport properties, hadronic matter, spin hydrodynamics, and the role of conserved charges in high-energy environments. These studies significantly enhance our understanding of the complex dynamics of hot QCD matter, the quark-gluon plasma (QGP) formed in high-energy nuclear collisions. Advances in theoretical frameworks, including hydrodynamics, spin dynamics, and fluctuation studies, aim to improve theoretical calculations and refine our knowledge of the thermodynamic properties of strongly interacting matter. Experimental efforts, such as those conducted by the ALICE and STAR collaborations, play a vital role in validating these theoretical predictions and deepening our insight into the QCD phase diagram, collectivity in small systems, and the early-stage behavior of strongly interacting matter. Combining theoretical models with experimental observations offers a comprehensive understanding of the extreme conditions encountered in relativistic heavy-ion and proton-proton collisions. |
| title | Dynamics of Hot QCD Matter 2024 -- Bulk Properties |
| topic | Nuclear Theory High Energy Physics - Experiment High Energy Physics - Phenomenology High Energy Physics - Theory |
| url | https://arxiv.org/abs/2412.10779 |