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200 10$aGadolinium foils as converters of thermal neutrons in detectors of nuclear radiation$b[electronic resource] /$fD.A. Abdushukurov
205   $a1st ed.
210   $aHauppauge, N.Y. $cNova Science Publishers$dc2010
215   $a1 online resource (134 p.)
225 1 $aPhysics research and technology
300   $aDescription based upon print version of record.
311   $a1-61728-676-1 
320   $aIncludes bibliographical references and index.
327   $aIntro -- GADOLINIUM FOILS AS CONVERTERS OF THERMAL NEUTRONS IN DETECTORS  OF NUCLEAR RADIATION -- GADOLINIUM FOILS AS CONVERTERS OF THERMAL NEUTRONS IN DETECTORS  OF NUCLEAR RADIATION -- CONTENTS -- PREFACE -- Chapter 1  INTRODUCTION -- Chapter 2  MATHEMATICAL MODELING  OF CONVERTER PERFORMANCES -- 2.1. THEORETICAL BASES -- 2.1.1. Probability of Neutrons Absorption -- 2.1.2. Probability of Gamma Quanta's Formation -- 2.1.3. Probability of Internal Conversion  Electrons Formation -- 2.1.3. Intensity of Auger Electrons -- 2.1.6. Passage of Electrons through a Substance -- 2.2.1. Model Representation and Calculation -- 2.2.2. Probability of Converters Activation -- 2.2.3. Modeling for a Case of Neutrons Flow  under Various Angles -- 2.2.4. Contribution of Low-Energetic Electrons  to General Efficiency of Converters -- 2.2.5. Contribution X-Rays and Soft Gamma Radiations  on General Efficiency of Converters -- 2.3.1. Modeling of Converters Representing Sandwiches,  from Supporting Films and Converters -- 2.2.6. Modeling of Converters Executed from a Set  Thin Drilling Converters -- Chapter 3  POSITION-SENSITIVE DETECTORS  OF THERMAL NEUTRONS WITH  GADOLINIUM CONVERTERS -- 3.1. NORMAL PRESSURE MULTISTEP AVALANCHE CHAMBER -- 3.1.1. Characteristics of the Multistep Avalanche Chambers -- 3.1.2. Gas Amplification and Efficiency of  Registrations MSAC -- 3.1.3. Spatial Resolution of the Multistep Avalanche Chambers -- 3.1.4. Influence of Gas Mixes on Characteristic MSAC -- 3.1.5. Ways of stabilization of operating modes for work MSAC -- 3.1.6. Dedector Desing -- 3.1.7. Effects of Some Constructional Elements on the MSAC Characteristics -- 3.2. THERMAL NEUTRON IMAGING DETECTORS COMBINING NOVEL COMPOSITE FOIL CONVERTORS  AND GASEOUS ELECTRON MULTIPLIERS -- 3.2.1. The Neutron Convertor Foil -- 3.2.2. The Multistep Avalanche Chamber.
327   $a3.2.3. Detector Characteristics -- 3.3. HYBRID LOW-PRESSURE (MSGC)  NEUTRON DETECTORS -- 3.3.1. The Detector Principle -- 3.3.2. Converter Fabrication -- 3.4. RESISTIVE PLATE CHAMBERS WITH GD-COATED ELECTRODES AS THERMAL NEUTRON DETECTORS -- 3.5. THE NEUTRON SENSITIVY IMAGE PLATES -- 3.5. NEUTRON IMAGING DETECTOR USING CAPILLARY PHENOMENA AND LIQUID SCINTILLATOR -- 3.6. POSITION-SENSITIVE DETECTION OF THERMAL NEUTRONS WITH SOLID STATE DETECTORS  (GD SI PLANAR DETECTORS) -- 3.6.1. Characteristics of Detector -- CONCLUSIONS -- REFERENCES -- INDEX -- Blank Page.
410  0$aPhysics research and technology.
606   $aNeutron counters$xMaterials
606   $aGadolinium
606   $aMetal foils
615  0$aNeutron counters$xMaterials.
615  0$aGadolinium.
615  0$aMetal foils.
676   $a539.7/7
700   $aAbdushukurov$b D. A$01111827
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910811262303321
996   $aGadolinium foils as converters of thermal neutrons in detectors of nuclear radiation$93988344
997   $aUNINA