Garfield 
 Help 
 &GAS 
 built_in 
 Search 
 Index 
 Full text 
 Contents 

&GAS: built_in

ARGON-20-ETHANE-80

Loads a mixture of 20\ % argon and 80\ & ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Drift velocities taken from Jean-Marie et. al. (1979), diffusion from Ramanantsizehena (1979). Mobility and most probable energy loss are questionable. Supplied by Matthias Grosse Perdekamp (Freiburg, Germany).

ARGON-50-ETHANE-50

A mixture of 50\ % argon with 50\ % ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Supplied by Manfred Guckes (transport properties) and Giorgio Sartori and Michela Giavedoni (Padova, parameters part).

ARGON-80-ETHANE-20

A mixture of 80\ % argon with 20\ % ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Drift velocities taken from Jean-Marie et al. (1979), diffusion from Ramanantsizehena (1979). Mobility and most probable energy loss are questionable. Supplied by Matthias Grosse Perdekamp (Freiburg, Germany)

ARGON-73-METHANE-20-PROPANOL-7

Loads a mixture of 73\ % argon, 20\ % methane and 7\ % propanol.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Drift velocities and diffusion from F. Piuz Cern-EF 82-11 and Fehlmann et. al. (1983). Clustering parameters with large, unknown errors. Supplied by Matthias Grosse Perdekamp (Freiburg).

CO2

Pure CO\<SUB\>2\</SUB\>.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Karl Dederichs and Fran\&ccedil;ois Piuz (drift velocity and diffusion) and Fran\&ccedil;ois Rohrbach (multiplication).

CO2-80-ETHANE-20

A mixture of 80\&nbsp;% CO\<SUB\>2\</SUB\> with 20\&nbsp;% ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Data supplied by Diego Bettoni.

CO2-90-ETHANE-10

A mixture of 90\&nbsp;% CO\<SUB\>2\</SUB\> with 10\&nbsp;% ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Data supplied by Diego Bettoni and Reyad Sawafti.

CO2-90-ISOBUTANE-10

A mixture of 90\&nbsp;% CO\<SUB\>2\</SUB\> with 10\&nbsp;% isobutane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Data supplied Manfred Guckes (transport properties) and Helmut Boettcher (clustering properties).

ETHANE

Pure ethane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Supplied by Ingo Herbst.

ISOBUTANE

Pure isobutane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Supplied by Emile Schmoetter. Clustering properties from Helmut Boettcher.

METHANE

Pure methane.

This command is provided mainly for reasons of backwards compatibility. For new applications, consider using HEED for ionisation of gas mixtures due to charged particles, MAGBOLTZ for the electron transport properties, and ADD to add ion mobility data, e.g. from the H.W. Ellis et al. papers.

Source: Ingo Herbst, for the drift velocity and the diffusion and from "Basic data of plasma physics, 1966", Sanborn C. Brown.

Go to the top level, to &GAS, to built_in, to the topic index, to the table of contents, or to the full text.

Formatted on 21/01/18 at 16:55.