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PHOTON 2019  –  International Conference on the Structure and the Interactions of the Photon, including the 23rd International Workshop on Photon-Photon Collisions and the International Workshop on High Energy Photon Colliders

Overview This conference is part of the series initiated in 1973 in Paris, as an International Colloquium on Photon-Photon Collisions at Electron-Positron Storage Rings. The latest Photon conferences took place in CERN-Geneva (2017), Novosibirsk (2015), Paris (2013), Spa (2011), Hamburg (2009), Paris (2007), Warsaw (2005), Frascati (2003), Ascona (2001), Freiburg (2000), Ambleside (1999), and Egmond aan Zee (1997). The scientific program will include topics related to photon-photon and photon-hadron collisions as well as final-state photon production at current and future colliders. In addition, high-energy astrophysics gamma-rays, and photon-related searches of new physics (axions, dark/hidden photons, …) will also be discussed. The conference format consists of talks in plenary sessions only. The LOC offers a number of young researcher grants to attend the conference. Interested participants are invited to send an e-mail to photon19_loc@lists.lnf.infn.it with their motivated request for support. The 2019 Edition of the Colloquium will be hosted in the first established laboratory of the Italian National Institute of Nuclear Physics (awarded also as EPS historical site) the place where in 1959, exactly 60 years ago, the first Italian Electro-Syncroton started its operations. Here, the year after, the first matter-antimatter collider (AdA) ever built saw the light.  

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DAFNE-TF Workshop 2018

ICFA Mini-Workshop on   DAFNE as Open Accelerator Test Facility in year 2020 The workshop will take place on December 17th, 2018 at the Touschek Auditorium, Frascati Laboratory of INFN, Italy. The workshop is intended to discuss the interest from scientists to access the DAFNE e+ e- complex, which will conclude its physics program as collider by the end of 2020. An infrastructure almost unique, that could open as Test Facility (DAFNE-TF) to the international community for studies of accelerator technologies and beam physics, for small experiments, and to be used as a test bed for enterprises active in the sector of components for accelerators. Scientific Committee L. Rivkin (EPFL and PSI, chair), C. Bloise (INFN-LNF), A. Ghigo (INFN-LNF), M. Giovannozzi (CERN), C. Milardi (INFN-LNF), N. Pastrone (INFN-Torino), A. Variola (INFN-LNF) Organizing Committe O. R. Blanco Garcia (INFN-LNF), A. De Santis (INFN-LNF), A. Drago (INFN-LNF, chair) Secretariat D. Ferrucci (INFN-LNF), M. Luciani (INFN-LNF) Webmaster: S. Reda

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Fermilab: Muon g-2 and other news.

After 50 years of operation, Fermilab is still going strong. I will discuss the motivation, status, and prospects of the FNAL g-2 experiment. I’ll place it in historical context, especially regarding Fermilab’s future programs. I will end with a brief explanation of Fermilab’s “smallest” experiment, the Holometer, which measures effect of Planck-scale physics.

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Tracking particle in space and time

The combination of precision space and time information in particle tracking has the capability of transforming how we design experiments, 4D tracking is being considered in the upgrade of the ATLAS, CMS and LHCb experiments at the High-Luminosity LHC, set to start data taking in 2024-25. Regardless of the type of solution chosen, space-time tracking brings benefits to the performance of the detectors by reducing the background and sharpening the resolution; it improves tracking performances and simplifies tracks combinatorics. Space-time tracking also allows investigating new physics channels, for example, it opens up the possibilities of new searches in long-living particles by measuring accurately the time of flight between the production and the decaying vertexes.

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High precision X-ray measurements

Overview Since their discovery in 1895, the detection of X-rays had a strong impact and various  applications in several fields of science and human life. Impressive efforts have been done to develop new type of detectors and new techniques, aiming to obtain higher precisions both in terms of energy and position. Depending on the applications, Solid State Detectors, Microcalorimeters and various types of Spectrometers provide nowadays the best performances as spectroscopic and imaging detectors. The now reachable few microns and meV precisions open the door towards ground breaking applications in fundamental physics, medical science, astrophysics, cultural heritage and several other fields. The aim of this workshop is to have an overview, from different communities and research fields, of the most recent developments in X-ray detection and their possible impacts in various sectors like, for example, exotic atoms measurements, quantum physics studies, XRF, XES, EXAFS, plasma emission spectroscopy, monochromators, synchrotron radiation, telescopes and space engineering. A special focus will be put on the role played by mosaic crystals of pyrolitic graphite which, thanks to their physical properties, may have promising applications in many of these fields. This workshop is organized in the framework of the VOXES project, supported and financed by the 5th National Scientific Committee of INFN in the framework of the Young Researcher Grant 2015, n. 17367/2015.   Main Topics: X-ray energy detectors X-ray position detectors Spectrometers X-ray optics Graphite based applications X-ray imaging X-rays in astrophysisc X-rays in nuclear physics Cultural heritage applications of X-rays Medical applications Conference ...

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Halide Perovskites: new materials for optoelectronic devices

Organometal Halide Perovskites such as MethylAmmonium Lead Iodide are opening new opportunity for solution-process high performing optoelectronic devices such as solar cells, photodetectors, light-emitting diodes etc. The success of such materials is based on the ideal direct band gap, good electron and hole diffusion lengths and the easy manufacture. Moreover, tuning of electronic and optical properties can be achieved by varying cation composition (Cs, Rb, FA, MA etc.) and halide composition (I, Br, Cl). One of the most successful application of such materials is in the field of solar cell where a certified efficiency of 22.7% has been achieved for single cells and 27.3% for tandem perovskite/silicon. I this talk I will review the main characteristics of the halide perovskites and the application to conventional optoelectronic devices showing possible applications in the field of high-energy physics.

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ICFDT5 – 5th International Conference on Frontier in Diagnostic Technologies

Overview ICFDT is an interdisciplinary conference, jointly organized by INFN and ENEA Frascati laboratories, aimed at bringing together scientists, engineers and also experts from industries. Contributions are welcome from the frontiers of diagnostics in different areas of research: high energy and accelerator physics and technology, nuclear fusion plasmas, space and astrophysics research, medical applications, lasers physics and technology, etc., to discuss common interests in concepts and realization of measurement systems. Special focus of this 5th ICFDT edition will be on proposals/projects/ideas for novel measurement systems with a high degree of reliability and innovation to mark significant progress in the diagnostic techniques for Advanced Accelerators, Innovative Nuclear Fusion Devices, Metamaterials and the Detection of Fast and Ultra-fast Events. The ICFDT5 will have seven special and regular plenary sessions, a satellite meeting and a poster session (see Scientific Programme). Poster dim. 841 x 1.189 mm (A0) vertical. Important dates: 15 July 2018    Talk Acceptance Notification 31 July 2018    Early Registration Deadline 10 Sept. 2018  Poster Abstract Submission Deadline 14 Sept. 2018  Late Registration Deadline 3-5 Oct. 2018  Conference Convened

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Particle beam steering using atomic lattices

Crystal lattice can trap and channel particle beams. In a bent crystal, the channelled particles follow the bend. This makes a basis for an elegant technique of beam steering by means of bent channelling lattices, experimentally demonstrated from 3 MeV to 6.5 TeV. The technique was developed at CERN, FNAL, IHEP, BNL, SLAC etc, and can lead to interesting applications from crystal undulators to medical micro-beams to crystal collimation at hadron and lepton colliders. First we used the lattices of natural crystals, then graded composition lattices like SiGe/Si, next we’ll use the lattices built by nanotechnology. Recent years extended the use first in energy down to a few MeV and up to multi-TeV, then in particle choice from protons and nuclei to electrons (SLAC and Mainz). We review developments in the field and show outlook for the future.

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Biophotons: general aspects and new experimental data

Almost one hundred years ago the Russian biologist A. Gurwitsch found that a weak ultra-violet radiation comes out from the living tissues and influences the mitotic activity of the neighboring organisms. He called this radiation “mitogenetic radiation”. However, this interesting result has been forgotten by the scientific community and the mitogenetic radiation was then considered as an artifact. With the improvement of the methods to detect weak level of radiation and the increase of understanding of quantum optics, there has been a renewed interest in this phenomenon with the works of Colli and Facchini in the 50s and F.A. Popp in the 80s. At the present this research is a new field called “biophotonics”. Biophotons are an endogenous production of ultra-weak photon emission in and from cells and organisms and this emission is characteristic of alive organisms. The essential characteristics of biophoton emission are the following: 1. The total intensity of the emission goes from several to some hundred photons per cm2 surface of the living system. 2. The spectral intensity seems to be quite flat within the range of at least 300 and 800 nm and does not show any defined peaks around some specific frequencies. 3. After excitation by white and/or monochromatic light the emission increases of almost a factor ten and relaxes to the normal values quite slowly following a hyperbolic function rather than an exponential low. 4. The photocount statistics that account for the probability of having n photons within some time interval seems to follow ...

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Searching for Leptoquarks at the high-luminosity LHC

I will discuss the reach on Leptoquarks of the future high-luminosity LHC program. In particular, I will present a search strategy in the t-tbar plus missing energy channel. This is one of the most powerful channel to detect third-generation Leptoquarks and offers an important test of models which explain recent flavor anomalies.

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