Hi everyone!👋🏻
I’m studying fluctuations in high-energy nuclear collisions — how matter behaves under extreme conditions, like after the Big Bang.

I use C++ and computer simulations for this. Has anyone else worked with nuclear matter simulations?

Happy to chat and share ideas! 😊

Hi! That sounds really interesting! I haven’t worked with nuclear matter simulations myself, but I’d love to learn more about what you do. What kind of simulations are you running in C++?

14 hours ago, Симбатт said:

Hi! That sounds really interesting! I haven’t worked with nuclear matter simulations myself, but I’d love to learn more about what you do. What kind of simulations are you running in C++?

Hi Symbat 👋 I'm new to this experiment and just learning how to process the data 😊 We're using Monte Carlo simulations and GEANT4.

Hi! 👋Sounds awesome! I’m working in a similar field — would be great to discuss modeling methods.🙂

Edited October 8Oct 8 by Adila

hi! studying fluctuations in high energy nuclear collisions is a fascinating area, especially for understanding the qcd phase transition and the early universe

Hi! That sounds really interesting 🔬
I haven’t worked directly with nuclear matter, but I also use simulations for my research in astrophysics. I’m modeling Nova-like variable stars using PHOEBE.
It’s fascinating how similar our approaches are — using computer models to study extreme physical conditions!

On 05.10.2025 at 14:53, Sayora said:

Всем привет! 👋🏻
Я изучаю флуктуации при столкновениях ядер высоких энергий — как ведёт себя материя в экстремальных условиях, например, после Большого взрыва.

Я использую для этого C++ и компьютерное моделирование. Кто-нибудь ещё работал с моделированием ядерной материи?

Рад пообщаться и поделиться идеями! 😊

Hi! 👋🏻
That sounds like a really interesting area of research. I’ve worked a bit with nuclear matter simulations too — mainly using Python and ROOT for data analysis, and C++ for event generation.

From my experience, it’s really useful to compare different models (for example, hydrodynamic vs. transport approaches) to see how fluctuations evolve at different energy scales. Visualization tools can also help a lot when studying correlations.

Would love to hear more about which model or framework you’re using! Maybe we can exchange some simulation tips.

Very interesting! In astronomy, when studying extreme states of matter — for example, in the cores of neutron stars or during galaxy collisions — we often use hydrodynamic and numerical models, as well as simulations of plasma and magnetic field evolution. Similar approaches can be applied to nuclear collisions to study how matter behaves at extremely high temperatures and densities.

That’s a really exciting topic — studying fluctuations in high-energy nuclear collisions gives deep insight into how quark–gluon plasma forms and evolves. 🔥

Working with C++ simulations is a great choice since it allows precise control over event generators and transport models. Many researchers use frameworks like UrQMD, AMPT, or hydrodynamic codes to model these extreme states of matter and analyze correlations or phase transitions.

It’s a challenging but rewarding field — exploring these fluctuations helps us better understand the early universe conditions and the fundamental behavior of matter under extreme energy densities. 🚀

21 hours ago, Adila said:

Hi! 👋Sounds awesome! I’m working in a similar field — would be great to discuss modeling methods.🙂

Hi! 🖐🏼

Here’s my Scopus link if you’d like to learn more about my research.

commercial link removed by moderator

18 hours ago, Aiaru Smat said:

hi! studying fluctuations in high energy nuclear collisions is a fascinating area, especially for understanding the qcd phase transition and the early universe

Hello.

Totally agree! 🚀 Our research feels like a time machine — we’re traveling back to the moment of the Big Bang! 🌌✨

Edited October 9Oct 9 by Phi for All
No advertising, please.

You send each other polite messages that make no sense and have no effect, and I still haven't seen a single line of C/C++ code... you can't be real programmers..

Programmers would write code in the first line, not nonsense..

Paste the code using MC & GEANT4 here..

13 hours ago, Daniyar said:

Hi! That sounds really interesting 🔬
I haven’t worked directly with nuclear matter, but I also use simulations for my research in astrophysics. I’m modeling Nova-like variable stars using PHOEBE.
It’s fascinating how similar our approaches are — using computer models to study extreme physical conditions!

👋🏼

Wow, that’s really cool! 🌌
I’ve read about PHOEBE — amazing that you’re using it for nova-like stars!

2 hours ago, Mamatova Sagira said:

Hi! 👋🏻
That sounds like a really interesting area of research. I’ve worked a bit with nuclear matter simulations too — mainly using Python and ROOT for data analysis, and C++ for event generation.

From my experience, it’s really useful to compare different models (for example, hydrodynamic vs. transport approaches) to see how fluctuations evolve at different energy scales. Visualization tools can also help a lot when studying correlations.

Would love to hear more about which model or framework you’re using! Maybe we can exchange some simulation tips.

👋🏼

That’s awesome! 🙌 I’m also using ROOT for my analysis — I run it on Ubuntu. 🐧
It’s a really powerful tool once you get used to it!

We’ve recently published our latest results in the following paper: please stop advertising

2 hours ago, Bolysbek Yerkebulan said:

Very interesting! In astronomy, when studying extreme states of matter — for example, in the cores of neutron stars or during galaxy collisions — we often use hydrodynamic and numerical models, as well as simulations of plasma and magnetic field evolution. Similar approaches can be applied to nuclear collisions to study how matter behaves at extremely high temperatures and densities.

Hello Yerkebulan 🙂

Exactly! Both fields explore how matter behaves in extreme environments — really cool parallel! 🚀
By the way, Daniyar also replied to my post here — his research topic is quite similar, so I think you two could really exchange ideas or even collaborate. 🤝

1 hour ago, Zhanerke ALzhanova said:

That’s a really exciting topic — studying fluctuations in high-energy nuclear collisions gives deep insight into how quark–gluon plasma forms and evolves. 🔥

Working with C++ simulations is a great choice since it allows precise control over event generators and transport models. Many researchers use frameworks like UrQMD, AMPT, or hydrodynamic codes to model these extreme states of matter and analyze correlations or phase transitions.

It’s a challenging but rewarding field — exploring these fluctuations helps us better understand the early universe conditions and the fundamental behavior of matter under extreme energy densities. 🚀

You really seem to know this topic well! 😊 I’d be glad to read more about your work.

Edited October 9Oct 9 by Phi for All
No advertising, please.