4^th International Conference on Physics February 20-21, 2023 Paris, France

Track 1: Applied Physics

Electromagnetism is one of the four fundamental forces and is a discipline of physics concerned with the study of the electromagnetic force. It is concerned with the physical interactions of electricity and magnetism. Electronics, on the other hand, is the study of how to control electron flow. Analogue electronics, Digital electronics, Microelectronics, and Embedded systems are some of the branches of electronics. Condensed matter, lasers and quantum electronics, high-speed optoelectronics, free-electron laser physics, vacuum tunnelling, nondestructive testing, biophysics, synchrotron and accelerator physics, semiconductor physics and devices, and astrophysics and space physics are all areas of applied physics.

• Accelerator physics
• Acoustics
• Atmospheric physics
• Biophysics
• Brain–computer interfacing

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Track 2: Atomic, Molecular & Optical Physics

Atomic physics examines atoms as a separate system of electrons and an atomic nucleus, whereas molecular physics examines the physical features of molecules. Optical physics makes use of and develops light sources that range from microwaves to X-rays across the electromagnetic spectrum. The generation and detection of light, linear and nonlinear optical processes, spectroscopy, lasers, and laser spectroscopy are all covered by optical physics. The three branches are inextricably linked. These areas naturally include the theory and applications of emission, absorption, and scattering of electromagnetic radiation from atoms and molecules, spectroscopic analysis, laser and maser creation, and optical characteristics of matter. 

• Atomic nucleus
• Electromagnetic radiation
• Optical engineering
• Quantum optics
• Optical coherence tomography

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Track 3: Astro- Particle Physics & Cosmology

Astro-particle physics is a branch of particle physics that examines fundamental particles with astronomical origins. It is located at the crossroads of particle physics and astronomy. Cosmology, on the other hand, is the study of the Universe's birth and evolution. Particle physics, astronomy, astrophysics, relativity, solid state physics, and cosmology have all collaborated to form this relatively new subject. The invention of neutrino oscillation played a part in this. High-energy cosmic-ray physics, particle cosmology, VHE and UHE gamma-ray astronomy, and high- and low-energy neutrino astronomy are all areas of research in the discipline of astro-particle physics. Cosmology is primarily concerned with stellar dynamics and evolution, galaxy formation and evolution, magnetohydrodynamics, large-scale structure of matter in the cosmos, cosmic ray origins, general relativity, and physical cosmology, including string cosmology and Astro particle physics.

• Dark Matter
• Charged Cosmic Radiation
• Gamma-Ray Astronomy
• High-Energy Neutrino Astrophysics
• Low-Energy Neutrino Astrophysics

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Track 4: Astrophysics

Astrophysics is a branch of traditional astronomy that studies celestial bodies and events. Astrophysics is a term that encompasses both astronomy and physics. Electronics, advanced computing, communication satellites, optics, solar panels, and MRI scanners are some of the domains where astronomy research can be seen in action. Even if it takes time for an application of astrophysics research to find its way into our daily lives, the influence it has is well worth the wait.

• Radio astronomy.
• Optical astronomy.
• Infrared astronomy.
• Ultraviolet, X-ray, and gamma ray astronomy using space telescopes.
• Cosmology

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Track 5: Bio Physics

Molecular biophysics investigates biological topics that are comparable to those investigated in biochemistry and molecular biology, with the goal of discovering the physical foundations of biomolecular processes. Scientists in this discipline study the connections between a cell's numerous processes, such as the interconnections between DNA, RNA, and protein production, as well as how these interactions are regulated.

• Structural Biophysics and Protein Dynamics
• Systems Neuroscience
• Molecular Microscopy and Optical Probes
• Cell Signaling and Cellular Physiology
• Computational Biology and Genomics

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Track 6: Classical & Modern physics

Classical physics is concerned with matter and energy on a regular scale of observation, whereas current physics is concerned with matter and energy behaviour under severe conditions or on a very large or very small scale. Time and space are absolute and independent in classical physics, therefore they can be considered separately.Time and space, on the other hand, are relative and dependent in current physics. We can distinguish acoustics, optics, or mechanics in the most fundamental area, and cosmology, quantum mechanics, or relativity in the most current applications, between the branches of classical and modern physics.

• Classical mechanics. Newton's laws of motion
• Classical electrodynamics
• Classical thermodynamics
• Special relativity and general relativity
• Classical chaos theory and nonlinear dynamics     

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Track 7: Condensed Matter Physics

Material that has been compressed Physics is an area of material science concerned with the physical properties of matter's condensate phase, in which particles adhere to one another. The laws of quantum mechanics and electromagnetism are two examples. It has a strong connection to atomic physics and biology. The creation of the semiconductor transistor, laser technology, and various phenomena explored in the context of nanotechnology are all examples of condensed matter physics research.

• Anderson impurity model
• Colloid vibration current
• Degenerate semiconductor
• Dynamic electrophoretic mobility
• Electric-field screening

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Track 8: Electromagnetism and Electronics

Electromagnetism is one of the four fundamental forces and is a discipline of physics concerned with the study of the electromagnetic force. It is concerned with the physical interactions of electricity and magnetism. Electronics, on the other hand, is the study of how to control electron flow. Analogue electronics, Digital electronics, Microelectronics, and Embedded systems are some of the branches of electronics.

• Dipoles and Monopoles
• Strength of magnetic field
• Permeability, paramagnetism, ferromagnetism and diamagnetism
• Cause of magnetism
• Retentivity
• Inductance

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Track 9: High Energy Nuclear Physics

Understanding the properties and behaviour of elementary particles through the study of collisions or decays involving energy of hundreds of megaelectronvolts is a branch of physics. The exploration of nuclear matter under severe conditions, as well as the Quark-Gluon Plasma, which existed for roughly a microsecond after the Big Bang, is part of high-energy nuclear research. It now includes exotic mesons, multi-GeV reaction investigations, and the quark-gluon plasma, which were formerly considered particle physics issues.

• Nuclear decay
• Nuclear fusion
• Nuclear fission
• Production of "heavy" elements
• Nuclear matter

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Track 10: Heavy-ion-Physics

Atomic material science and particle physics is the branch of physics that studies nuclear cores, their components, and their interactions. The atomic power era is the most well-known type of atomic material science. The examination has sped up tenders in a variety of fields, including atomic medicine and attractive resonation imaging, atomic weapons, particle implantation in materials construction, and radiocarbon dating in geography and archaic exploration.

• High-density matter
• Ultrarelativistic nuclear collisions
• Quark Gluon Plasma
• Rapidity and Pseudo-Rapidity
• Quark-gluon plasma density

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Track 11: Material Physics

The field of physics that deals with the physical properties of materials is known as material physics. It is a subclass of condensed matter physics that applies fundamental condensed matter concepts to complicated multiphase fluids, including technologically important materials. It lays the groundwork for the creation of novel materials with previously unattainable functions for future critical technologies like nanotechnology and biomaterials. Materials physics has applications in a variety of sectors, including materials engineering and medicine, as well as climate protection through resource efficiency.

• Classical mechanics.
• Thermodynamics and statistical mechanics.
• Electromagnetism and photonics.
• Relativistic mechanics.
• Quantum mechanics, atomic physics, and molecular physics.

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Track 12: Medical Physics

The Medical Physics section of Current Oncology's mission is to give information and assessments on these significant advances in image-guided adaptive radiation therapy. Critical evaluation studies of the clinical application and effect of novel and clinically established technologies are also published in Current Oncology. The application of physics principles, theories, and methodologies to medicine or healthcare is known as medical physics.

• Medical imaging physics.
• Radiation therapeutic physics.
• Nuclear medicine physics.
• Health physics.
• Non-ionizing Medical Radiation Physics.
• Physiological measurement.

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Track 13: Nano-Technology

Nanotechnology is the study of materials and machinery on a billionth-of-a-meter scale. It is one of the most dynamic areas of research and development since it is so important in fundamental physics, applied physics and engineering, and molecular materials. Many technology and business sectors, including information technology, homeland security, medicine, transportation, energy, and others, are being revolutionised by nanotechnology.

• Carbon black, carbon nanotubes, graphene, fullerene nanofibers fullerene
• Silica fumes
• Clay
• Metal/alloys
• Ceramics

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Track 14: Neutron Scattering

Modern materials science aims to comprehend the factors that influence the qualities of matter at the atomic level, then apply that understanding to improve those properties or create new materials and functionalities. This process is frequently accompanied by the discovery of exciting new physics, which can lead to previously unimagined possibilities. Almost all of our society's significant changes, from the rapid expansion of computing and the internet to the constant increase in average life span, can be traced back to advances in our understanding and use of material physics and chemistry. Scientists utilise a number of methods and approaches to examine atomic-scale structure and dynamics, which are frequently based on the scattering of particle beams. To examine structure with atomic resolution, a "ideal" probe might have a wavelength similar to the space between atoms and an energy similar to that of atoms in materials to study their dynamics. It would be devoid of charge in order to avoid severe scattering by charges on electrons or nuclei and to allow deep penetration into materials.It would be scattered equally by light and heavy atoms and have a proper magnetic moment, allowing us to investigate magnetism with ease. To ease comparison with theory and computer modelling, the scattering cross-section would be exactly quantifiable on an absolute scale.

• Elastic neutron scattering
• Quasielastic/inelastic neutron scattering
• Spin-echo instrument
• Diffractometers
• Monochromator

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Track 15: Particle Accelerators

A particle accelerator is a mechanism that accelerates elementary particles to extremely high energies, such as electrons or protons. Particle accelerators, at its most basic level, produce charged particle beams that can be employed for a variety of scientific applications. Particle accelerators are divided into two categories: linear accelerators and circular accelerators. Particles are propelled along a linear, or straight, beam line using linear accelerators. Particles are propelled along a circular track using circular accelerators. Fixed-target studies require linear accelerators, whereas colliding beam and fixed-target experiments require circular accelerators.

• Electrodynamic particle accelerators
• Magnetic induction accelerators
• Linear accelerators
• Circular or cyclic RF accelerators
• Betatrons

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Track 16: Plasma Science

Plasma science is the study of charged particles and fluids that interact with self-consistent electric and magnetic fields. Plasma is a collection of charged particles, both positive and negative, that behave in a collective manner. Space and astrophysics, controlled fusion, accelerator physics, and beam storage are all areas of applicability for this scientific subject. Plasma science is also being used in conjunction with nanotechnology to develop catalytic fuel cell electrodes that require only a quarter of the platinum required by traditional electrodes. Such advancements are anticipated to have a resonant effect on future "green" automobiles.

• Dipoles and Monopoles
• Strength of magnetic field
• Permeability, paramagnetism, ferromagnetism and diamagnetis
• Cause of magnetism
• Retentivity
• Inductance

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Track 17: Quantum Science & Technology

Quantum physics is the study of the tiniest particles, which are thought to be the universe's fundamental particles. Understanding the properties of solids, atoms, nuclei, subatomic particles, and light requires quantum physics. Quantum computing, quantum cryptography, and quantum teleportation are some of its subfields. The science of delivering secret communications across a quantum channel is known as quantum cryptography. Quantum key distribution is a method that leverages quantum mechanics features to provide a safe key. Quantum computers use quantum bits, or qubits, to increase computing power. Atomic clocks, the most precise clocks on the planet, employ quantum physics to measure time. Squeezing, a method of minimising noise in laser beams, can also be done using quantum techniques.

• Quantum cryptography
• Quantum simulation
• Quantum metrology
• Quantum engineering
• Quantum sensing

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Track 18: Quantum Physics

Quantum theory is the theoretical foundation of modern physics, explaining the nature and behaviour of matter and energy on an atomic and subatomic scale. Quantum physics is the study of the nature and behaviour of matter and energy at that level. Quantum physics is the study of small objects that are affected by quantum reality. Quantum is a term that refers to a distinct amount or part. One of the most surprising and contentious elements of quantum physics is that the outcome of a single experiment on a quantum system cannot be predicted with certainty.

• Quantum Realm
• Quantum field theory
• Quantum information science
• Quantum mechanics
• Quantum interference

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Track 19: Radiation Protection

Radiation protection refers to the principles, requirements, technology, and procedures for safeguarding individuals (radiation workers, the general public, and patients receiving radiation diagnosis and therapy) against the damaging effects of ionising radiation. It dates back to the early twentieth century. Very quickly after the discoveries of radiation and radioactivity, the benefits of radiation were recognised in the use of X-rays for medical diagnosis. The haste to capitalise on the medical benefits quickly led to the recognition of the other side of the coin: radiation-induced damage. Only the most evident forms of radiation injury, such as radiation burns, were recognised in those early days, and protection efforts concentrated on their prevention, mostly for practitioners than than patients. This was the beginning of radiation protection as a discipline, despite the fact that the problem was narrow. It was increasingly recognised throughout the middle decades of this century that there were other, less evident, adverse radiation consequences, such as radiation-induced cancer, for which there is a danger even at modest doses of radiation. This danger cannot be entirely avoided. It can only be reduced to the bare minimum. As a result, a major component of radiation protection is the overt balancing of benefits from nuclear and radiation operations against radiation danger, as well as measures to reduce residual risk.

• Traditional Lead Shielding
• Lead Composite Shielding
• Lead-Free Shielding
• Radiation therapy
• Diagnostic imaging

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Track 20: Theory of Relativity

Matter does not simply draw on other matter over empty space, as Newton predicted. Matter, on the other hand, jumbles space-time, and other matter is affected by this jumbled space-time. Objects (including planets like the Earth) travel through space-time under their own inertia, following curved paths because the shortest path (or geodesic) in twisted space-time is along curved paths.

• Einstein Theory of Relativity.
• Relativism
• Special relativity
• General relativity
• Cosmological

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The "Quantum Computing Market & Technologies" report predicted that between 2018 and 2024, the global market for quantum computing will grow at a CAGR of 24.6 percent. In 2022, the performance of quantum computing technology will have advanced at a rapid rate, and a wave of discoveries is anticipated.

A race for quantum computing supremacy is already underway, and the winner will have cutting-edge processing power that surpasses that of digital supercomputers. Long-standing dynamics in trade, intelligence, military affairs, and geopolitical power balances can be changed by quantum computing. Something significant is about to happen in the quantum world, as you are probably aware if you've been following the news on quantum computing and the development of industrial and governmental efforts to create a scalable, fault-tolerant quantum computer that can solve problems that are beyond the reach of current supercomputing capabilities. In ways that were unheard of just five years ago, quantum physicists are already working with corporate IT giants to develop quantum computing capabilities and technologies as the foundation of a second information era. This "holy grail" technology is progressively being transformed into a workable programme that may one day beat classical processing in some applications thanks to improvements in quantum computer design, fault-tolerant algorithms, and novel fabrication techniques. Now that these new findings have been made, the key question for corporations is not if a quantum computer will exist, but rather who will build one and use it to their advantage.

The market is anticipated to reach USD 15.38 billion by 2022, expanding at a CAGR of 5.2 percent, according to a recent market research report titled "By Type Application of physics such as (Optical communication & laser processing), Vertical (Commercial, Telecom, Research, Defense, Medical, Automotive, Electronics, & Industrial), and Geography - Global Forecast to 2022." The emergence of physics is being fueled by an increase in demand from the healthcare, environmental, and financial sectors as well as a tendency toward the development of nano and micro devices and better performance than conventional methods of material processing.

Atomic physics systems have become more popular due to the rising demand and expanding needs of businesses. With a CAGR of 6.0 percent, the atomic physics industry is anticipated to rise to USD 5.60 billion. North America is anticipated to hold the largest market share in the upcoming years, while the Asia-Pacific region, with a focus on India, China, and Japan, is anticipated to experience the highest growth rate in the atomic physics sector. Some of the key players in the global market for atomic physics include Bruker Corporation, PerkinElmer, Thermo Fisher Scientific, Agilent Technologies, and PerkinElmer (U.S.).

Nuclear physics is used to define, describe, and forecast the market in terms of process, end users, and geography. The Nuclear Physics market is anticipated to increase from USD 2.25 billion to USD 2.85 billion, at a CAGR of 4.8 percent. In North America, Europe, Asia-Pacific, and the Rest of the World, we can examine the nuclear physics market. It provides thorough information on the potential for stakeholders and the industry leaders' competitive environment.

The purpose of applied physics is to be employed in technological and practical contexts. Based on the fundamental principles and ideas of the physical sciences, applied physics applies these ideas to real-world technologies and related subjects like Lasers, Semiconductor Devices, and Nanophotonics. There is always a need for Physics in the market due to its applications.

According to previous industry data, the physics market is anticipated to surpass £3.4 billion. According to fresh forecasts by market research company BCC Research, the global market for physics will grow by around £4.3 billion, or 7.7%, annually to reach nearly £6.2 billion. Due to growing applications in the cardiac, breast MRI, and neurologic sectors, it is estimated that the global market will increase from £770 million to almost £1.2 billion, representing a 9.3% annual growth rate.

Why to attend?

The 4th International Conference on Physics, which will be the biggest physics conference ever, will act as a premier technical forum for disseminating information on the most recent advances in research and development as well as the introduction of novel applications and technologies. There are talks on trending topics from around the globe as well as professional networking opportunities with influential working groups and panels.

The Conference Series is the organisation behind this occasion, which covers current key physics conference subjects including medical physics, applied physics, occupational physics, high energy physics, plasma physics, applied physics, condensed matter physics, quantum physics, and so forth.

Major Physics Associations around the Globe

• International Union of Pure and Applied Physics
• International Astronomical Union
• The international society for optics and photonics
• International Union of Crystallography
• Society of Non-Linear and Dynamics Econometrics
• The International Association of Mathematical Physics (IAMP)
• The international society for optics and photonics (IUPAB)

Target Audience:

Physics 2023 is expecting the participants from all over the world in its multidisciplinary fields. This mixture of audience will give boost and opportunity to justify our theme " Exploring research and innovations in Physics for future advancements".

Physics 2023 expecting attendees from,

• Professors, Students, Researchers and Technical Staff from Physics and Astronomy and other related disciplines
• Scientists and students from Engineering and Technology (E&T)
• Delegates from Physical Science and Nanotechnology Associations
• Delegates from Physics, Semiconductor, Electronics, Power and Energy related industries
• Directors of Companies
• Managers and Business Intelligence Experts
• Research students and Research Institutes
• Advertising and Promotion Agency Executives
• Nanotechnology Engineers  

World-renowned speakers, the most recent techniques, tactics and the newest updates along with the future innovations in the field of Physics. Come be a part of it...!

Physics 2022 Report

The "3rd International Conference on Physics" was presented by ConferenceSeries in Rome, Italy during February 18–19, 2022. The conferences, which had as their theme "Exploring research and breakthroughs in Physics for future improvements," were a huge success and featured notable keynote speakers from numerous reputable companies and universities who addressed the audience.

ConferenceSeries would like to extend its sincere gratitude to all the Honorable guests and Keynote Speakers of the 3rd International Conference on Physics for their contributions to the event's activities, which were conducted through a number of scientific sessions and plenary talks. We want to express our sincere appreciation to all of the distinguished guests and keynote speakers at Physics 2022.

The Physics 2022 Committee would like to express its sincere gratitude to all the distinguished guests and keynote speakers, including Holly Kooi from Ushine Vienna, Austria; Florian Trummer from Hospital of the Brothers of St. John of God Vienna, Austria; and Sejran Abdushi from UBT-High Edu. Anthony Galea from Galea Professional Medical Inc., Canada; Olivier Morenon from University of Applied Sciences of Western Switzerland, Switzerland; Olivier Morenon from University of Applied Sciences 

The organisers of Physics 2022 would like to thank Makarov Igor Stepanovich, an independent researcher at the Moscow Institute of Radio in Haifa, Israel, for serving as the conference's moderator. He made a significant contribution to the success of this event and assumed responsibility for session coordination. We are grateful for your assistance.

In addition, ConferenceSeries had the honour of congratulating the Physics 2022 organising committee, keynote speakers, plenary speakers, chairs and co-chairs, young researchers, and other conference attendees whose participation helped make the event a huge success.

We also want to express our gratitude to all of the speakers, poster presenters, and delegates who gave of their time to share their research with our network of peers. We are thrilled to have forged such strong bonds with all of these attendees and associations, and we anticipate receiving much more support at our next events. We also want to express our gratitude to the conference's chairs and co-chairs, Olivier Morenon from the University of Applied Sciences of Western Switzerland in Switzerland, Ursula Serdarevich from Favaloro University in Argentina, and Elizabeth Simon from the New York Institute of Technology in the United States, for their invaluable assistance in making the event a huge success.

The most recent trends and problems in cross-disciplinary physics and related technological breakthroughs were covered in a series of lectures by eminent professionals. Save the dates for the most anticipated event of 2023 After receiving positive feedback and participation from Physics 2022, we are pleased to announce our upcoming conferences in the Series 4th International Conference on Physics, which will take place on February 20–21, 2023, in Paris, France. The conference's theme will be Exploring research and innovations in Physics for future advancements.

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Some of our conference images are as follows:

This conference's primary goal is to politely invite all of our honourable participants to the future "4th International Conference on Physics," which will take place on February 20–21, 2023, in Paris, France, so they can share and exchange information there.

It serves as a global venue for business meetings, poster presentations, workshops, symposia, networking, and other events. It will provide a platform where you may exhibit items and services to assure massive exposure and networking. Seize the chance to offer your creative concepts, cutting-edge technology, and recent research.

The speakers at Physics 2023 were a collection of world-class experts who enlightened the audience with their contributions to physics.

As experts in physics, we hope that this platform will provide knowledge and fresh information by incorporating a variety of interactive sessions to promote the sharing of creative ideas in the field of Physics and its advancements. All of the session talks are thought to be excellent talks that make the attendees, exhibitors, collaborators, and other speakers feel extremely interesting.

We would like to extend an invitation to you to participate in Physics 2023 as an international organising committee member, speaker, keynote speaker, young research forum participant, sponsor, exhibitor, etc. We want to provide a top-notch programme that covers the complete range of physics research and developments and shares cross-cultural examples of different ideas and methods.

With the feedback from your renowned Speakers, we have added some of the new Session tracks that needs to be focused such as such as Classical & Modern physics, Condensed Matter Physics, Astro- Particle Physics & Cosmology, Material Physics, High Energy Nuclear Physics, Atomic, Molecular & Optical Physics, Quantum Science & Technology, Nano-Technology, Plasma Science, Electromagnetism and Electronics, Applied Physics, Heavy-ion-Physics, Bio Physics, Neutron Scattering, Particle Accelerators, Radiation Protection, Quantum Physics, Medical Physics, Astrophysics, Theory of Relativity.

With the help of a lot of support, Physics 2022 was a success. Now, Physics 2023, which will take place in Paris, France on February 20–21, 2023, will be even more successful thanks to the participation of many doctors, physics professionals, young researchers, students, delegates, directors, and other companies involved in the field of physics. Join our team Physics 2023 in the stunning French city of Paris, and let's make this business meeting a huge success.

Contact us:

Website: https://physicscongress.physicsmeeting.com/