Vadim Dudnikov
Springer International Publishing
e druk, 2020
9783030284398
Development and Applications of Negative Ion Sources
Specificaties
Paperback, blz.
|
Engels
Springer International Publishing |
e druk, 2020
ISBN13: 9783030284398
Rubricering
Onderdeel van serie
Springer Series on Atomic, Optical, and Plasma Physics
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
This book describes the development of sources of negative ions and their application in science and industry. It describes the physical foundations and implementation of the key methods of negative ion production and control, such as charge exchange, thermionic emission, secondary emission (sputtering) and surface-plasma sources, as well as the history of their development. Following on from this essential foundational material, the book goes on to explore transport of negative ion beams, and beam-plasma instabilities. With exposition accessible at the graduate level, and a comprehensive bibliography, this book will appeal to all students and researchers whose work concerns ion sources and their applications to accelerators, beam physics, storage rings, cyclotrons, and plasma traps.
Specificaties
ISBN13:9783030284398
Taal:Engels
Bindwijze:paperback
Uitgever:Springer International Publishing
Inhoudsopgave
<p> TABLE OF CONTENTS</p><p></p>
<p>Introduction ................................................. .................................................. ... ... ......... 3</p>
<p>Chapter 1. Charge exchange Technologies Control of Flow of accelerated particles .. .......................... 7</p>
<p>Features of the charge exchange technology on production and the use of accelerated particles ........... 7</p>
<p>Regularities of the redistribution of accelerated particles on charge and mass states .............. ...............9</p>
Charge exchange Accelerators Tandem.............................................. ..... ............13<p></p>
<p>Supercollimated beams production............................................... ... 16</p>
Charge exchange extraction of particles from accelerators .......................................... ... ...16<p></p>
<p>Charge exchange distribution of accelerated particle beams .......................................... ........................ 17</p>
<p>Charge exchange injection in accelerators and storage rings .................................. 18</p>
<p>Charge exchange injection into magnetic traps for plasma confinement .. . 24</p>
<p>Chapter 2. Methods of negative ions beams production ..................... 26</p>
<p>Features of the of formation and destruction negative ions processes ............ ...................................... 27</p>
Charge exchange method for negative ions beams producing........ ......... 30<p></p>
<p>Charge exchange negative ions sources........... ............................. 32</p>
<p>Features of production of negative ions beams from gas-discharge plasma .. ..... .................................. 39</p>
<p>Elementary processes of formation and destruction of negative ions in a gas-discharge plasma ........... 40</p>
Production of beams of negative ions due to their generation in the volume of plasma ........................ 45<p></p>
<p>Plasma sources of negative ions ................................... ........ 46</p>
Thermionic method of negative ions beams producing..... ... 56<p></p>
<p>Secondary emission (sputtering) method of negative ion beams production.............. ........................... 58</p>
<p>Chapter 3. Surface Plasma Method for negative ions beams production ......... ........................ ........ 64</p>
<p>Investigation of the emission of negative ions from discharges in hydrogen with the adding of cesium 75</p>
Investigation of the energy spectra of H– ions from SPS ......... ............... 85<p></p>
<p>Improved design versions of SPS ...................... ............. 92</p>
<p>The emission properties of the electrodes in the SPS discharges.................. ............... 100</p>
Plasma parameters and the destruction of negative ions during transportation through a plasma ...... 108<p></p>
<p>Cesium in surface plasma sources .............................. ........... 113</p>
<p>Physical basis of surface plasma method of negative ions production ........... .................................... 121</p>
<p>Features of formation of flows of reflected, sputtered and evaporated particles ................. ............... 123</p>
<p>Features of electron capture at electron affinity levels evaporated, sputtered and reflected particles 126</p>
<p>Implementation of the surface-plasma method of negative ions beams production ........................... 137</p>
<p>Chapter 4. Surface Plasma negative ions Sources........................................... ................................. 147</p>
Surface plasma sources of H– ions for accelerators ....... ...... 147<p></p>
<p>The design of SPS for accelerators ............. ................................. ............... 148</p>
<p>Formation of H– ions beams of in SPS for accelerators ............. ........... 154</p>
SPS with Penning discharge for microlithography ........... ............... 159<p></p>
<p>Smiplanotron, Geometric focusing ........................ ................... 160</p>
Semiplanotron for accelerators ............................. ...................... ................... 163<p></p>
<p>Spherical focusing semiplanotron for continuous mode operation.............................. ......................... 165</p>
SPS for heavy negative ions obtaining ................................. 170<p></p>
<p>Development of SPS in foreign centers ................... .......................... ......... 173</p>
<p>Development of SPS with Penning discharge at Los Alamos National Laboratory (LANL) ...................... 177</p>
<p>Development of SPS with Penning discharge in Rutherford Appleton Laboratory ............. ................... 181</p>
<p>Development of SPS with Penning discharge for continuous operation in the INP SB RAS ........... ........ 184</p>
Large volume SPS with beam self-extraction .................. ................. 188<p></p>
<p>SPS of negative ions with arc discharge for neutral beams in Thermonuclear Fusion ... ....................... 197</p>
<p>Development of RF SPS with cesiation for ITER ................................. ............ ........................ 200</p>
Development of a neutral beam injector with RF SPS in the INP SB RAS .......... ........ 204<p></p>
<p>Development of RF SPS with casiation for Spallation Neutron Source ........................ .......................... 209</p>
<p>Carbon films in RF SPS with cesiation ........................................ 216</p>
Development of RF SPS with an external antenna in SNS ...................... ................. 222<p></p>
<p>Development of RF SPS with a solenoidal magnetic field ..... .................. 225</p>
<p>Testing of RF SPS with saddle antenna and solenoidal magnetic field in a large test stand SNS ..... 236</p>
Operation of RF SPS with cesiation in continuous mode ................ ............................ ......... 241<p></p>
<p>Development of RF SPS with cesiation at CERN for Linac 4 ............... ........................... ........ 241</p>
<p>Development of SPS with cesiation in J-PARC .................. .......................... ................................ 247</p>
<p>SPS for production of neutrals with energies in the hundreds of eV .............. ......................... ............. 251</p>
<p>Chapter 5. Transportation of high brightness negative ion beams, space charge compensation, Instability ................................................. .............................................. ... 257</p>
<p>Chapter 6. General Remarks on the Surface Plasma Method of negative ions beams production..... 268</p>
<p>Conclusion ................................................. .................................................. .... .. 276</p>
<p>Bibliography ................................................ ..........................................</p>
<p>Introduction ................................................. .................................................. ... ... ......... 3</p>
<p>Chapter 1. Charge exchange Technologies Control of Flow of accelerated particles .. .......................... 7</p>
<p>Features of the charge exchange technology on production and the use of accelerated particles ........... 7</p>
<p>Regularities of the redistribution of accelerated particles on charge and mass states .............. ...............9</p>
Charge exchange Accelerators Tandem.............................................. ..... ............13<p></p>
<p>Supercollimated beams production............................................... ... 16</p>
Charge exchange extraction of particles from accelerators .......................................... ... ...16<p></p>
<p>Charge exchange distribution of accelerated particle beams .......................................... ........................ 17</p>
<p>Charge exchange injection in accelerators and storage rings .................................. 18</p>
<p>Charge exchange injection into magnetic traps for plasma confinement .. . 24</p>
<p>Chapter 2. Methods of negative ions beams production ..................... 26</p>
<p>Features of the of formation and destruction negative ions processes ............ ...................................... 27</p>
Charge exchange method for negative ions beams producing........ ......... 30<p></p>
<p>Charge exchange negative ions sources........... ............................. 32</p>
<p>Features of production of negative ions beams from gas-discharge plasma .. ..... .................................. 39</p>
<p>Elementary processes of formation and destruction of negative ions in a gas-discharge plasma ........... 40</p>
Production of beams of negative ions due to their generation in the volume of plasma ........................ 45<p></p>
<p>Plasma sources of negative ions ................................... ........ 46</p>
Thermionic method of negative ions beams producing..... ... 56<p></p>
<p>Secondary emission (sputtering) method of negative ion beams production.............. ........................... 58</p>
<p>Chapter 3. Surface Plasma Method for negative ions beams production ......... ........................ ........ 64</p>
<p>Investigation of the emission of negative ions from discharges in hydrogen with the adding of cesium 75</p>
Investigation of the energy spectra of H– ions from SPS ......... ............... 85<p></p>
<p>Improved design versions of SPS ...................... ............. 92</p>
<p>The emission properties of the electrodes in the SPS discharges.................. ............... 100</p>
Plasma parameters and the destruction of negative ions during transportation through a plasma ...... 108<p></p>
<p>Cesium in surface plasma sources .............................. ........... 113</p>
<p>Physical basis of surface plasma method of negative ions production ........... .................................... 121</p>
<p>Features of formation of flows of reflected, sputtered and evaporated particles ................. ............... 123</p>
<p>Features of electron capture at electron affinity levels evaporated, sputtered and reflected particles 126</p>
<p>Implementation of the surface-plasma method of negative ions beams production ........................... 137</p>
<p>Chapter 4. Surface Plasma negative ions Sources........................................... ................................. 147</p>
Surface plasma sources of H– ions for accelerators ....... ...... 147<p></p>
<p>The design of SPS for accelerators ............. ................................. ............... 148</p>
<p>Formation of H– ions beams of in SPS for accelerators ............. ........... 154</p>
SPS with Penning discharge for microlithography ........... ............... 159<p></p>
<p>Smiplanotron, Geometric focusing ........................ ................... 160</p>
Semiplanotron for accelerators ............................. ...................... ................... 163<p></p>
<p>Spherical focusing semiplanotron for continuous mode operation.............................. ......................... 165</p>
SPS for heavy negative ions obtaining ................................. 170<p></p>
<p>Development of SPS in foreign centers ................... .......................... ......... 173</p>
<p>Development of SPS with Penning discharge at Los Alamos National Laboratory (LANL) ...................... 177</p>
<p>Development of SPS with Penning discharge in Rutherford Appleton Laboratory ............. ................... 181</p>
<p>Development of SPS with Penning discharge for continuous operation in the INP SB RAS ........... ........ 184</p>
Large volume SPS with beam self-extraction .................. ................. 188<p></p>
<p>SPS of negative ions with arc discharge for neutral beams in Thermonuclear Fusion ... ....................... 197</p>
<p>Development of RF SPS with cesiation for ITER ................................. ............ ........................ 200</p>
Development of a neutral beam injector with RF SPS in the INP SB RAS .......... ........ 204<p></p>
<p>Development of RF SPS with casiation for Spallation Neutron Source ........................ .......................... 209</p>
<p>Carbon films in RF SPS with cesiation ........................................ 216</p>
Development of RF SPS with an external antenna in SNS ...................... ................. 222<p></p>
<p>Development of RF SPS with a solenoidal magnetic field ..... .................. 225</p>
<p>Testing of RF SPS with saddle antenna and solenoidal magnetic field in a large test stand SNS ..... 236</p>
Operation of RF SPS with cesiation in continuous mode ................ ............................ ......... 241<p></p>
<p>Development of RF SPS with cesiation at CERN for Linac 4 ............... ........................... ........ 241</p>
<p>Development of SPS with cesiation in J-PARC .................. .......................... ................................ 247</p>
<p>SPS for production of neutrals with energies in the hundreds of eV .............. ......................... ............. 251</p>
<p>Chapter 5. Transportation of high brightness negative ion beams, space charge compensation, Instability ................................................. .............................................. ... 257</p>
<p>Chapter 6. General Remarks on the Surface Plasma Method of negative ions beams production..... 268</p>
<p>Conclusion ................................................. .................................................. .... .. 276</p>
<p>Bibliography ................................................ ..........................................</p>