Techniques and Concepts of High-Energy Physics V


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An ambitious comprehensive scientific programme of studies of the neutron as an elementary particle and its application in nuclear physics, condensed matter physics and other modern trends of applied research is developed at the Frank Laboratory of Neutron Physics FLNP. The main topics in nuclear physics are the following: studies of neutron properties and physics of ultracold nuclear reactions under the action of neutrons, fundamental, applied and methodical research, elaboration and development of neutron and other ionizing radiation detectors.

The fundamental and applied research in condensed matter physics conducted at the laboratory is aimed at the studies of the structure and dynamics of condensed matter, structural-optical properties, morphology of the condensed matter surface, accumulation of new data on microscopic properties of the studied systems strong correlated electron systems, low-dimensional systems, heterostructures, polymers, colloid systems, biological objects, nanomaterials, rocks, minerals, etc. The main basic facility of the laboratory is the IBR-2 pulsed reactor on fast neutrons that after upgrading keeps its parameters on the world-class level and is the only facility of such class in the world.

The reactor is equipped with a spectrometer complex that allows a wide range of research in topical trends of nuclear physics and condensed matter physics. A wide user-friendly programme at the spectrometer complex of IBR-2 provides all interested scientists physicists, chemists, biologists, geologists, specialists in material science with user time on the competitive basis to obtain opportunities to use the spectrometers and get high qualified support of leading specialists of the laboratory.

The programme of the IBR-2 spectrometer complex development includes the provision of the efficient operation of the equipment, elaboration of experimental methods and the development of new modern facilities intended for farsighted trends of research. IREN is intended to solve a wide range of tasks in fundamental and applied nuclear physics. The facility is designed for research in nuclear physics with the time-of-flight method in the neutron energy range up to dozens keV and studies of photonuclear reactions.

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Applied research to develop this method of non-destructive elemental analysis and fundamental experiments to study interaction of fast neutrons with nuclei are held. The scientific programme of the laboratory includes experimental research in the synthesis and studies of nuclear physics and chemical properties of new superheavy elements, fusion and fission reactions and multi-nucleon transfer in heavy-ion collisions; studies of the properties of nuclei on the border of the nucleon stability and mechanisms of nuclear reactions with accelerated radioactive nuclei; studies of interaction of heavy ions with various materials polymers, semiconductors, electronic components of space equipment, etc.

Six new heavy elements with the atomic numbers have been synthesized for the recent years, along with about 50 new isotopes of transactinoid elements. These elements are named flerovium — in honour of the laboratory and its founder Academician G. In particular, it was discovered that element is a heavier homolog of Zn-Cd-Hg in its chemical properties, i. Mendeleev Periodic Table.

The development of the project implies the upgrade of the accelerator complex for radioactive beams on the basis of the cyclotrons U and UM that will serve the purpose of obtaining monochromatic beams of radioactive and stable nuclei. Applied research at LNR is connected with studies in the field of nanotechnology, radiation resistance of materials, surface modification. Over the last few years the amount of experiments on testing electronic components has considerably grown for the purposes of the Federal Space Agency Roskosmos.

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Particle Physics in High School: A Diagnose Study

This research is conducted in wide international cooperation with JINR Member States and leading nuclear physics centres of the world. Web-site of the laboratory.


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  6. Techniques and Concepts of High Energy Physics X.
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  8. The main directions of the activities at the Laboratory of Information Technologies LIT are connected with the provision of networks, computer and information resources, as well as mathematical support of a wide range of research at JINR in high energy physics, nuclear physics, condensed matter physics, etc. LIT activities in network, computer and information resources includes the following tasks: provision of the Institute and JINR Member States with high-speed telecommunication channels; development of a high-speed, fail-safe and protected computer network at JINR; support of the distributed high-productive computer infrastructure and mass memory system; provision of informational and software support of the scientific and industrial activities of the Institute; development of the enterprise information system: elaboration of the JINR grid-segment and its introduction into the world grid-structure.

    CICC JINR has powerful high-productive computer resources that are integrated into the world computer networks by means of the high-speed communication channels. It provides support for virtual organization of international projects, including those at the LHC.

    A cloud infrastructure is developed at the laboratory that provides users with cloud services.

    Particle Physics in High School: A Diagnose Study

    A distributed training research grid-infrastructure is developed at LIT to educate students and specialists that is represented by popular modern techniques of distributed calculations. Mathematical support of experimental and theoretical research conducted with direct JINR involvement includes research on the advanced level in computational mathematics and physics. The aim of these studies is the development of mathematical methods, algorithms and programmes for numerical and symbol-numerical simulation of physical processes, experimental data processing and analysis with the latest computational hardware.

    The main research trends at the laboratory are: radiation genetics and radiobiology; radiation physiology and neurochemistry; mathematical modeling of biophysical systems; astrobiology; physics of radiation protection and radiation research at JINR facilities for nuclear physics. The laboratory structure includes the departments of radiobiology and radiation research and a sector of astrobiology. In an important decision was taken on scientific-advice guidance of the laboratory from the side of the RAS Department of Biological Sciences.

    Owing to a wide range of radiation sources at JINR, LRB can rightly be regarded as a leader among other scientific organizations of Russia and JINR Member States in the studies of regularities and mechanisms of biological action of ionizing radiation with various physical characteristics. Using nuclear physics facilities of the Institute, the laboratory staff members are able to obtain unprecedented data of fundamental character and wide application. An international research programme in radiobiology is implemented at the laboratory.

    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V Techniques and Concepts of High-Energy Physics V
    Techniques and Concepts of High-Energy Physics V

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