Improved bremsstrahlung from diodes with pulse-heated tantalum anodes

Bremsstrahlung from high-power electron-beam diodes increases and becomes spatially more uniform when the tantalum anode is first pulse-heated to remove gas from the surface and interior, and then pulse-heated again to white hot just prior to and during the high-power pulse. Heating the tantalum eli...

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Veröffentlicht in:	IEEE transactions on plasma science 2002-10, Vol.30 (5), p.1806-1815
Hauptverfasser:	Weber, B.V., Allen, R.J., Moosman, B.G., Stephanakis, S.J., Young, F.C., Pereira, N.R., Goyer, J.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anodes Beams (radiation) Bremsstrahlung Delay Diodes Electrons Foils Heat Heating Hydrogen Laboratories Particle beams Physics Plasma temperature Radiation Tantalum Voltage
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container_title	IEEE transactions on plasma science
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creator	Weber, B.V. Allen, R.J. Moosman, B.G. Stephanakis, S.J. Young, F.C. Pereira, N.R. Goyer, J.R.
description	Bremsstrahlung from high-power electron-beam diodes increases and becomes spatially more uniform when the tantalum anode is first pulse-heated to remove gas from the surface and interior, and then pulse-heated again to white hot just prior to and during the high-power pulse. Heating the tantalum eliminates protons, retards beam pinching, and increases the far-field X-ray dose relative to unheated tantalum. The radiation pattern becomes symmetric and hollow, producing a more uniform near-field dose distribution than for unheated tantalum. With a white-hot anode, the diode current is single-species Child-Langmuir until the voltage exceeds 1 MV, at which point it reaches critical current. These phenomena demonstrate reduced effects from ions in the diode. The increase in dose is a result of both reduced ion current and enhanced electron reflexing through the subrange tantalum foil. The heating technique is compatible with high-power generators such as Decade, whose x-radiation output would increase by as much as 30%.
doi_str_mv	10.1109/TPS.2002.806617
format	Article
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Heating the tantalum eliminates protons, retards beam pinching, and increases the far-field X-ray dose relative to unheated tantalum. The radiation pattern becomes symmetric and hollow, producing a more uniform near-field dose distribution than for unheated tantalum. With a white-hot anode, the diode current is single-species Child-Langmuir until the voltage exceeds 1 MV, at which point it reaches critical current. These phenomena demonstrate reduced effects from ions in the diode. The increase in dose is a result of both reduced ion current and enhanced electron reflexing through the subrange tantalum foil. 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Heating the tantalum eliminates protons, retards beam pinching, and increases the far-field X-ray dose relative to unheated tantalum. The radiation pattern becomes symmetric and hollow, producing a more uniform near-field dose distribution than for unheated tantalum. With a white-hot anode, the diode current is single-species Child-Langmuir until the voltage exceeds 1 MV, at which point it reaches critical current. These phenomena demonstrate reduced effects from ions in the diode. The increase in dose is a result of both reduced ion current and enhanced electron reflexing through the subrange tantalum foil. The heating technique is compatible with high-power generators such as Decade, whose x-radiation output would increase by as much as 30%.</description><subject>Anodes</subject><subject>Beams (radiation)</subject><subject>Bremsstrahlung</subject><subject>Delay</subject><subject>Diodes</subject><subject>Electrons</subject><subject>Foils</subject><subject>Heat</subject><subject>Heating</subject><subject>Hydrogen</subject><subject>Laboratories</subject><subject>Particle beams</subject><subject>Physics</subject><subject>Plasma temperature</subject><subject>Radiation</subject><subject>Tantalum</subject><subject>Voltage</subject><issn>0093-3813</issn><issn>1939-9375</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2002</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNqF0T1PwzAQBmALgUQpzAwsEQNMae_8EccjqgpUQgKJMltu4tBU-Sh2AuLf4yhISAwwefBzZ9-9hJwjzBBBzddPzzMKQGcpJAnKAzJBxVSsmBSHZAKgWMxSZMfkxPsdAHIBdEKWq3rv2nebRxtna-87Z7ZV37xGhWvrKC_b3Proo-y20b6vvI231nQBd6bpTNXXkWkGcUqOChOuz77PKXm5Xa4X9_HD491qcfMQZwxpF2fIZCKYZQA8FaikoAqE2CSCGsglz0WRFCA5ZJxvEqUKwSlnVNqCpnRTKDYl12Pf8Oe33vpO16XPbFWZxra91wqk4kqEMafk6k9JUw5hCfJ_KCnFRA5vX_6Cu7Z3TRhXoxKYqMACmo8oc633zhZ678rauE-NoIeYdIhJDzHpMaZQcTFWlNbaH40ypYjsCzssi4s</recordid><startdate>20021001</startdate><enddate>20021001</enddate><creator>Weber, B.V.</creator><creator>Allen, R.J.</creator><creator>Moosman, B.G.</creator><creator>Stephanakis, S.J.</creator><creator>Young, F.C.</creator><creator>Pereira, N.R.</creator><creator>Goyer, J.R.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Heating the tantalum eliminates protons, retards beam pinching, and increases the far-field X-ray dose relative to unheated tantalum. The radiation pattern becomes symmetric and hollow, producing a more uniform near-field dose distribution than for unheated tantalum. With a white-hot anode, the diode current is single-species Child-Langmuir until the voltage exceeds 1 MV, at which point it reaches critical current. These phenomena demonstrate reduced effects from ions in the diode. The increase in dose is a result of both reduced ion current and enhanced electron reflexing through the subrange tantalum foil. The heating technique is compatible with high-power generators such as Decade, whose x-radiation output would increase by as much as 30%.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TPS.2002.806617</doi><tpages>10</tpages></addata></record>
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subjects	Anodes Beams (radiation) Bremsstrahlung Delay Diodes Electrons Foils Heat Heating Hydrogen Laboratories Particle beams Physics Plasma temperature Radiation Tantalum Voltage
title	Improved bremsstrahlung from diodes with pulse-heated tantalum anodes
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