Handbook of Quantum Gravity

جستجوی نظریه گرانش کوانتومی یکی از مهم ترین و جذاب ترین مسائل در فیزیک نظری مدرن است. در حالی که هنوز یک نظریه کامل از گرانش کوانتومی وجود ندارد؛ پیشرفت های قابل توجهی در دهه های گذشته انجام شده است. در این کتاب راهنما، هر بخش به یک رویکرد خاص نسبت به نظریه گرانش کوانتومی اختصاص دارد و توسط متخصصان برجسته در این زمینه ویرایش شده است. این کتاب هم منبعی ارزشمند برای دانشجویان تحصیلات تکمیلی و هم مرجعی مهم برای محققان حوزه گرانش کوانتومی است.

✅ مدل استاندارد کیهان شناسی ممکن است دچار شکست شود

#اخبار_علمی_و_پژوهشی

اندازه گیری میلیون ها کهکشان نشان می دهد که انرژی تاریک در طول زمان تغییر می کند و پیچیده تر از آن چیزی است که قبلا تصور میشد. DESI بر روی تلسکوپی در آریزونا نصب شده است، جایی که طیف 5000 جرم آسمانی را به طور همزمان ضبط می کند. نتایج جدید از اندازه گیری نزدیک به 15 میلیون اختروش و کهکشان به دست ...

📣 متن کامل را در Instant View ⚡️ (دکمه پایین صفحه) و یا در وب‌گاه انجمن فیزیک ایران بخوانید:
🚩http://www.psi.ir/news2_fa.asp?id=4205

⏪ وب‌گاه انجمن فیزیک ایران:
🌍 http://www.psi.ir

✅ به کانال خبرى انجمن فیزیک ايران بپيوندید:
👇👇🏽👇👇🏽👇👇🏽👇
http://t.me/psinews

Speaker


Niayesh Afshordi



Affiliation

Peremeter Institute



Title of talk


Copenhagen Survey on Black Holes and Fundamental Physics



عنوان: نظرسنجی کپنهاگ دربارهٔ سیاه‌چاله‌ها و فیزیک بنیادی


Date and time,


6-7:30pm, Wednesday 27 Farvardin 1404 (16 April 2025).


Venue: Online



Link

https://www.skyroom.online/ch/schoolofphysics/colloquium



Abstract


The purpose of this survey is to take a snapshot of the attitudes of physicists working on some of the most pressing questions in modern physics, which may be useful to sociologists and historians of science. For this study, a total of 85 completed surveys were returned out of 151 registered participants of the ``Black holes Inside and out'' conference, held in Copenhagen in 2024. The survey asked questions about some of the most contentious issues in fundamental physics, including the nature of black holes and dark energy. A number of surprising results were found. For example, some of the leading frameworks, such as the cosmological constant, cosmic inflation, or string theory - while most popular - gain less than the majority of votes from the participants. The only statement that gains majority approval (by 68% of participants) was that the Big Bang meant “the universe evolved from a hot dense state”, not “an absolute beginning time”. These results provide reasons for caution in describing ideas as consensus in the scientific community when a more nuanced view may be justified.



چکیده:


هدف این نظرسنجی، ارائهٔ تصویری از نگرش‌های فیزیک‌دانانی است که بر روی برخی از مهم‌ترین پرسش‌های فیزیک مدرن کار می‌کنند، که می‌تواند برای جامعه‌شناسان و تاریخ‌نگاران علم مفید باشد. در این مطالعه، از میان ۱۵۱ شرکت‌کنندهٔ ثبت‌نام‌شده در کنفرانس «سیاه‌چاله‌ها از درون و بیرون» که در سال ۲۰۲۴ در کپنهاگ برگزار شد، مجموعاً ۸۵ پرسش‌نامه تکمیل‌شده دریافت شد. این نظرسنجی به موضوعاتی از جمله ماهیت سیاه‌چاله‌ها و انرژی تاریک پرداخت. نتایج شگفت‌انگیزی به دست آمد؛ برای مثال، برخی از چارچوب‌های پیشرو مانند ثابت کیهانی، تورم کیهانی، یا نظریه ریسمان—با وجود محبوبیت—کمتر از نیمی از آراء شرکت‌کنندگان را به خود اختصاص دادند. تنها گزاره‌ای که اکثریت (۶۸٪ از شرکت‌کنندگان) با آن موافقت کردند، این بود که مهبانگ به معنای «تکامل جهان از یک حالت داغ و چگال» است، نه «آغازی مطلق برای زمان». این نتایج نشان می‌دهد که در توصیف ایده‌ها به عنوان اجماع در جامعهٔ علمی، باید با احتیاط برخورد کرد و دیدگاه‌های دقیق‌تری را مد نظر قرار داد.

COSPAR Capacity-Building Workshop - JWST & AstroSat/UVIT Data Analysis


We are delighted to announce the upcoming COSPAR Capacity-Building Workshop ennoscriptd "JWST-UVIT Hands-on Workshop", scheduled for 20th to 31st October 2025 at CHRIST (Deemed to be University), Bangalore, India.

About COSPAR Capacity-Building Workshops: The Committee on Space Research (COSPAR) organizes Capacity-Building Workshops globally, aiming to enhance the scientific capabilities of researchers, particularly in developing regions, by providing practical training in space-based data analysis and fostering international collaboration.

Workshop Highlights: This intensive two-week workshop features expert-led sessions and hands-on tutorials focusing on the analysis and interpretation of data from the James Webb Space Telescope (JWST) and AstroSat's UltraViolet Imaging Telescope (UVIT). Topics covered include:

Local star-forming regions
High-redshift galaxies
Exoplanet research
Advanced data analysis techniques

Confirmed Lecturers:
Prof. Annapurni Subramaniam, Director, Indian Institute of Astrophysics
Dr. Carlos Gabriel, Chair, COSPAR Panel on Capacity Building
Prof. C S Stalin, Indian Institute of Astrophysics
Dr. Isabel Rebollido, European Space Astronomy Centre (ESA)
Dr. Javier Álvarez, Centro de Astrobiología, Spain
Dr. Nimisha Kumari, Space Telescope Science Institute, USA
Dr. Smitha Subramanian, Indian Institute of Astrophysics
Dr. Sreeja S Kartha, CHRIST University
Dr. Stacey Alberts, Space Telescope Science Institute, USA
Dr. Themiya Nanayakkara, Swinburne University of Technology, Australia


Participation & Support: 
Open to researchers, faculty, postdocs, Ph.D. students, and master's students from Asia and nearby regions. The workshop is limited to 40 participants to ensure personalized mentorship. All local expenses for selected participants will be covered.

Scientific Organizing Committee (SOC): 
Dr. Carlos Gabriel, COSPAR PCB Chair, Germany (Chair); Dr. Sreeja S Kartha, CHRIST University, Bangalore, India (co-chair); Dr. Themiya Nanayakkara, Swinburne University of Technology, Australia (co-chair);  Prof. Fatemeh Tabatabae, Institute for Research in Fundamental Sciences, Tehran, Iran; Dr. Blesson Mathew, CHRIST University, Bangalore, India; Prof. Inci Akkaya Oralhan, Erciyes University, Kayseri, Turkey; Prof. Mariano Méndez, University of Groningen, Netherlands; A/Prof. Xin Wang, University of Chinese Academy of Sciences, China.

Local Organizing Committee (LOC): 
Chair: Dr. Sreeja S Kartha, CHRIST University, Bangalore, India, Mr. Akhil Krishna R, CHRIST University, Bangalore, India; Dr. Blesson Mathew, CHRIST University, Bangalore, India; Dr. Jithesh V, CHRIST University, Bangalore, India; Dr. Kenath Arun, CHRIST University, Bangalore, India; Prof. Manoj B, CHRIST University, Bangalore, India; Dr. Prajwel Joseph, CHRIST University / Indian Institute of Astrophysics, Bangalore, India; Dr. Shridharan B, TIFR, Mumbai, India; Mr. Ujjwal Krishnan, CHRIST University, Bangalore, India; Dr. Vineeth V, CHRIST University, Bangalore, India;

Application: 
Apply online and find more information at: https://cosparindia2025.christuniversity.in
We look forward to your participation in this unique opportunity to collaborate, learn, and explore the cosmos!

🇪🇪 Walls and Voids in the Spatial Galaxy Distribution: Morphology, Hierarchical Topology and Statistical Characterization of the Cosmic Web 🇪🇪

Job Denoscription
We are advertising a 4 year PhD position within the context of the Horizon-Widera EXCOSM project on Galaxies and the Cosmic Web. The position is shared between the University of Groningen, at the Kapteyn Astronomical Institute (the Netherlands), University of Lorraine (France) and the University of Tartu, at Tartu Observatory (Estonia). During the PhD period the first 1+1 years will be spent at the University of Lorraine and at the Kapteyn Astronomical Institute, the last 2 years at Tartu Observatory.

We are looking for a highly motivated individual interested in studying the cosmic web environment. The project focuses on the detection and characterization of the walls and voids in the spatial galaxy distribution of the cosmic web, combining mathematical concepts from stochastic geometry and persistent (algebraic) topology. The PhD project will be supervised by Prof. Elmo Tempel (Tartu Observatory), Prof. Rien van de Weygaert (Kapteyn Astronomical Institute) and Prof. Radu Stoica (University of Lorraine). A more detailed denoscription of the PhD project can be found here https://owncloud.ut.ee/owncloud/s/gNtQc9ttsfAttqx

We seek excellent students with a strong background in cosmology, astrophysics, physics, mathematics and/or computer sciences. To be eligible to apply, a candidate must hold a Master's or equivalent degree in Physics, Astronomy, Mathematics, Computer Science, or a related field, by the starting date of the enrolment (1 September 2025). Previous research experience and skills will be important criteria for selection. English is the common language spoken at research institutes, and proficiency in English is a requirement for acceptance.

The application deadline is May 15, 2025. Applications should be submitted through the University of Tartu admission system. Entry requirements and more detailed information can be found here https://estonia.dreamapply.com/en_GB/courses/course/1347-phd-chemical-and-physical-sciences-specialisation-space-research-and-technology

Contact for further information:
Elmo Tempel, elmo.tempel@ut.ee
Rien van de Weygaert, weygaert@astro.rug.nl
Radu Stoica, radu-stefan.stoica@univ-lorraine.fr

School of Particles and Accelerators
Wednesday Weekly Seminar – Virtual Format
Date:
Wednesday, Apr 23, 2025 / چهارشنبه، 3 اردیبهشت 1404
Time:
05:00 PM - 06:00 PM (Tehran time)
Speaker:
Dr. Naomi Gendler
 
Affiliation:
Physics Department, Harvard University
Title:
Axions in the Dark Dimension
 
Title in Persian:
اکسیون ها در بعد تاریک

Abstract:
The dark dimension scenario, which is motivated from Swampland principles and predicts a single micron scale extra dimension, suggests a consistent framework for the dark sector of the universe. We consider the implications of this scenario for the QCD axion. We find that in the scenario in which the axion is localized on the standard model brane (which we argue is natural), a combination of theoretical (being bounded by the 5D Planck mass) and observational constraints forces it to have decay constant in a narrow range f~10^9 −10^10 GeV.
 
Indico Link: https://indico.hep.ipm.ir/e/n.gendler
Link to Join Virtually: https://www.skyroom.online/ch/ipm-particles/weekly-seminar

🔹 مجموعه‌ای از مقالات تاریخی نظریه کوانتوم

📚 به مناسبت صدمین سال تولد مکانیک کوانتومی

صد سال پیش، دانشمندانی مانند پائولی، هایزنبرگ و شرودینگر با ارائه‌ی ایده‌هایی انقلابی، پایه‌های نظریه‌ی کوانتومی را بنا نهادند؛ نظریه‌ای که نگاه ما به جهان را برای همیشه دگرگون کرد.

یونسکو سال ۲۰۲۵ را «سال بین‌المللی علم و فناوری کوانتومی» نام‌گذاری کرده است. به همین مناسبت، ویراستاران مجلات *Physical Review* مجموعه‌ای از مقالات کلاسیک و بنیادین در زمینه‌ی فیزیک کوانتومی را گردآوری کرده‌اند:

🔗 این مجموعه:
https://promo.aps.org/quantum-foundation-collection


@Theoretical_Physics_News

⭕️سمینار هفتگی گروه کیهان شناسی⭕️

💡موضوع ارائه:
 Exploring Stellar Populations

🗣 ارائه دهنده:
Hamidreza Mahani

📅 زمان ارائه: یکشنبه ۷ اردیبهشت؛ ساعت ۱۵:۰۰

🚪محل برگزاری: (به صورت هیبریدی)

🪑 دانشکده فیزیک - طبقه‌ی منفی ۱ - تالار جناب (آمفی تئاتر)

🖥 کلاس مجازی گروه کیهان‌شناسی دانشکده فیزیک

🔴 لطفاً به زمان و مکان سمینار توجه فرمایید.

💢#اطلاع_رسانی_سمینارهای_دانشکده
💢#سمینار_کیهان_شناسی
💢 #دکتر_باغرام #دکتر_ابوالحسنی #دکتر_راهوار #دکتر_خسروی

🆔 @anjoman_elmi_phys_sut

Institute for Research in Fundamental Sciences (IPM) SoA Weakly Seminar


The new DESI cosmology results:
What we have (not) learned about dark energy


نتایج جدید کیهان‌شناسی DESI: آموخته‌ها و نیاموخته‌هایمان در مورد انرژی تاریک


Yashar Akrami

Instituto de Física Teórica (IFT) UAM-CSIC, Spain;

Case Western Reserve University, USA


Abstract:

The new Dark Energy Spectroscopic Instrument (DESI) DR2 results have strengthened the possibility that dark energy is dynamical, i.e., it has evolved over the history of the Universe. This has raised the excitement that the first release of the DESI results generated in both cosmology and high-energy physics communities, and if taken at face value, it is the first time that the standard ΛCDM model of cosmology has faced a serious observational challenge. In this talk, I will first provide an overview of dynamical dark energy and why we may need it, and will then delve into the DESI findings, explaining what we have learned about the nature of dark energy and what we have not. I will particularly emphasize a few caveats which should be considered when interpreting the DESI results.


سه‌شنبه 09 ﻣﺎه اردی‌بهشت 1404 ﺳﺎﻋﺖ 11:00


Tuesday, April 29th, 2025 – 11:00 Tehran Time


Please note the time and the day of the seminar

Venue: SoA’s Seminar Room (in person)

دوره کوتاه
بازبهنجارش: از اختلالات تکین تا میدان‌های کوانتومی ابرمتقارن

هدف این دوره دانشجویان علاقمند به نظریه میدان می‌باشند.
پیش‌نیاز جلسه اول معادلات دیفرانسیل، و پیش‌نیاز جلسات بعدی گذراندن حداقل یکی از دروس آشنایی با نظریه میدان، نظریه میدان آماری، یا پدیده‌های بحرانی است

از دوشنبه، ۱۵ اردیبهشت،
در مرکز پژوهشی فیزیک انرژی بالا
برای اطلاعات تکمیلی به این پیام مراجعه کنید.

@SharifHEPCenter

🔸 "Particle Physics: A Window to Very Small Dimensions"
👤 Prof. Saeed Paktinat
🏛 Department of Physics, Yazd University, Iran
📆 Tuesday, May 6, 2025
⏰ 08:00 PM (Tehran Time, UTC +3:30)
🌐 vc.sharif.edu/zharfa

🔸 «فیزیک ذرات: پنجره‌ای به ابعاد بسیار کوچک»
👤 دکتر سعید پاک‌طینت، از دانشگاه یزد
📆 سه‌شنبه ۱۶ اردیبهشت ۱۴۰۴ | ساعت ۲۰
🌐 به صورت مجازی در اتاق مجازی ژرفا
💬 زبان ارائه انگلیسی است.

   در این ارائه، خواهیم دید که چگونه آزمایش‌ها و مشاهدات جدید، ماهیت مواد را در مقیاس‌های بسیار ریز شناسایی می‌کنند؛ از کوارک‌ها تا میدان‌های کوانتومی.

   این رویداد به میزبانی انجمن علمی نانو دانشگاه یزد و با همکاری انجمن علمی ژرفا برگزار می‌شود.

🆔 @Nano_YazdUni
🆔 @Zharfa90

School of Particles and Accelerators

Journal Club: Experiments & Phenomenology / Hybrid Format



Date:

Monday, 5 May 2025/ دوشنبه، 15 اردیبهشت 1404

Time:

11:00 AM - 12:00 PM (Tehran time)

Speaker:

Dr. Meisam Ghasemi


Affiliation:

School of Particles and Accelerators, IPM

Title:

Applications of Classical and Quantum Neural Networks in HEP Analyses


Title in Persian:

کاربردهای شبکه عصبی کلاسیک و کوانتومی در تحلیل های فیزیک انرژی بالا



Abstract:

This presentation explores the application of classical and quantum machine learning techniques in particle physics, highlighting their role in tasks such as jet classification, Higgs boson and SUSY identification, and fully hadronic event generation. It begins with an overview of the historical development of artificial intelligence and foundational concepts in deep learning, followed by practical implementations of deep neural networks (DNNs) and convolutional neural networks (CNNs) in high-energy physics analyses, including supersymmetry searches and jet substructure studies. The presentation then introduces quantum machine learning (QML), covering models such as quantum support vector machines (QSVMs) and variational quantum classifiers (VQCs), along with their advantages and challenges in Higgs boson identification. Finally, the use of generative AI is presented as a solution for data generation in both Standard Model and beyond Standard Model scenarios, enabling the production of synthetic datasets significantly faster than traditional Monte Carlo simulations involving MadGraph, Pythia, and Geant4.

Based on: https://link.springer.com/article/10.1140/epjc/s10052-023-11543-6 ,

https://cs231n.stanford.edu/reports/2016/pdfs/300_Report.pdf ,

https://arxiv.org/abs/2104.07692,

https://arxiv.org/abs/1701.05927


Indico Link: https://indico.hep.ipm.ir/e/m.ghasemi


Meeting Place: Seminar Room, School of Particles and Accelerators, IPM

Link to Join Virtually: https://www.skyroom.online/ch/ipm-particles/journal-club

Physics Colloquium

Speaker

Robert Brandenberger


Affiliation

McGill University


Title of talk

Do we understand early Universe cosmology?



عنوان: آیا کیها‌ن‌شناحت جهان اولیه را می‌فهمیم؟


Date and time,

6-7:30pm, Wednesday 21 May 2025 (31 Ordibehesht 1404)


Venue: Online


Link

https://www.skyroom.online/ch/schoolofphysics/colloquium


Abstract

I will argue that the usual effective field theory techniques break down in the rapdily expanding background of the early universe. The TCC ("Trans-Planckian Censorship Criterion") plays a key role in the argument. I will then discuss an attempt to obtain an emerging metric space-time and early universe cosmology starting from a quantum mechanical matrix model.

توی این سایت می تونید مقالات arXiv رو براساس فرمول مورد نظرتون سرچ کنید. فیلتر هم داره...
https://arxiv.noethia.com/

I currently have grant funding to support postdoctoral researchers at Xinjiang Astronomical Observatory (XAO), " http://english.xao.ac.cn/ ", Urumqi city.

Our group's research focuses on the following topics:



1. Multi-wavelength, multi-scale studies to understand BH accretion, jet formation mechanism and feedback to the galaxy.

2. IMBH/candidates and BHXB accretion-jet activities.

3. Dual/triple-AGN/SMBH identifications and cosmological implications.

4. BH gravity testing.

5. AGN feedback in the view of HI.

6. Slow and Fast Transients with QTT and VLBI follow-up (SLOFT-QTT), mainly focusing on TDE, BHXB, FRB, GRB...



We also develop and run SKA simulations in advance of real data.


Interested candidates are invited to submit their applications via email at " mghasemin@xao.ac.cn ".

Masoumeh Ghasemi-Nodehi

Xinjiang Astronomical Observatory (XAO), Chinese Academy of Sciences (CAS)

Legacy of Avicenna in Astronomy

Rizoi Bakhromzod

arxiv.org/abs/2505.18219

میراث ابن سینا در نجوم

School of Physics: HEPCo Weekly Seminar Series


Title of talk

Shining the Neutrino Flashlight into the Darkest Places


تاباندن پرتو نوترینو به تاریک‌ترین (ناشناخته ترین) مکان‌ها

Date and time

Tuesday, June 3rd, 2025 (13 Khordad), 2:00 pm (Tehran zone)


Link

https://www.skyroom.online/ch/schoolofphysics/highenergyseminar


Abstract

The most phenomenologically important properties of neutrinos are the facts that they don't interact with regular matter very much and that they change which charged lepton they like to interact with during propagation. The presence of matter does modify the propagation of neutrinos, somewhat, and I use this fact along with known oscillation parameters to probe environments that cannot be otherwise directly probed. In particular, I will show how low energy atmospheric neutrinos provide information about the Earth's core and that this can be determined by DUNE. I will also use current data from solar neutrino experiments, constrained by reactor neutrino data, to determine the density in the core of the Sun via neutrinos for the first time, as well as future sensitivities.

🇦🇺 Macquarie University is seeking outstanding candidates for PhD and Masters of Research scholarships commencing between January and June 2026 🇦🇺

Macquarie University is ranked #133 in the world, and our astronomy and astrophysics research group is one of the best in Australia. We offer PhD and Masters by Research degrees on topics ranging from exoplanets to the most distant galaxies, star formation to stellar death, the evolution of our Milky Way Galaxy, astronomical instrumentation, and more. Many projects are offered through Australian Astronomical Optics (AAO), a recognised world leader in innovative astronomical instrumentation, software and research, or offered jointly with CSIRO Space & Astronomy, who operate Australia’s national radio astronomical observatories. Successful applicants will join a diverse group of researchers and students from all over the world. We actively strive to create an equitable, inclusive and welcoming environment to all who work and study with us.

For our research areas see here. A representative but incomplete list of potential graduate projects can be found here.
https://www.mq.edu.au/research/research-centres-groups-and-facilities/centres/astrophysics-and-space-technologies/our-research-areas

Scholarships are awarded on a competitive basis, and cover tuition fees and a tax-free living allowance of AU$38,500 per year (approximately US$23,800).

Please email your expression of interest to astrohdrinfo@mq.edu.au no later than 2 July 2025. YOU MUST ATTACH your undergraduate and Masters level trannoscripts, a short CV, and a list of up to three topic areas you are interested in.

Competitive candidates will be connected with relevant supervisors and mentored through the separate application process, for the University-wide application deadline of 31 July 2025. Assessment of applications will begin on 16 June 2025, and early submission will provide the review panel more time to identify suitable supervisors and begin the university application process.

We are pleased to announce a one-day crash course hosted by the School of Quantum Physics and Matter at IPM.

This course will provide an introduction to the Mathematica xAct package with a focus on its applications in gravitational physics.



Course Details:



Title: Introduction to Mathematica xAct Package and Applications in Gravitational Physics
Lecturer: Dr. Sajad Aghapour [Max Planck Institute for Gravitational Physics (AEI)]

Date: 2 September 2025 - Morming session 9-12, Afternoon session 14-17 (including coffee breaks provided by IPM)

Venue: Classroom A, Farmanieh Campus, IPM

Prerequisites
Working knowledge of Mathematica
Familiarity with General Relativity
Bring your laptop and Install the xAct package on Mathematica
If you are interested in attending, please register by completing the form below.



https://forms.gle/17rAPVdySo7Embv56

We look forward to your participation.

به اطلاع می‌رساند "مدرسهٔ ملی علوم اطلاعات کوانتومی" با همکاری پژوهشکدهٔ فیزیک کوانتومی و ماده و شاخهٔ علوم و فناوری اطلاعات کوانتومی انجمن فیزیک ایران، در ۱۸ و ۱۹ بهمن ماه ۱۴۰۴ در پژوهشگاه دانش‌های بنیادی برگزار می‌شود. هدف این مدرسه ارتقای دانش و فراهم کردن بستری برای گسترش تعاملات علمی در زمینهٔ علوم اطلاعات کوانتومی است. برنامهٔ مدرسه با بهره‌گیری از مدرسان تراز اول شامل درس‌های پیشرفته در زمینه‌های نظریهٔ اطلاعات کوانتومی، حسگری کوانتومی، ترمودینامیک کوانتومی و محاسبات کوانتومی کاربردی خواهد بود. از متخصصان و دانشجویان تحصیلات تکمیلی علاقه‌مند به این حوزه برای شرکت در مدرسه دعوت می‌شود.

لطفاً برای کسب اطلاعات بیشتر به پوستر کنفرانس (در پیوست) و برای ثبت‌نام، به آدرس زیر مراجعه فرمایید:

https://qpm.ipm.ac.ir/conferences/NSQIS/

مهلت ثبت‌نام تا پایان دی ماه ۱۴۰۴ می‌باشد.