J.M.Pearce (talk | contribs) m (Created page with "Suggestions: # Show your calculations explicitly - only cite the numbers you found from references # use superscripts like this<sup>2</sup>") |
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Suggestions | ==Suggestions== | ||
# Show your calculations explicitly - | # Show your calculations explicitly - e.g. show your equations and where you got the values of the numbers | ||
# | # Only cite the numbers you found from references | ||
# Show the complete reference - not just the url | |||
# Use superscripts like this<sup>2</sup> | |||
# Taking an average utilization rate between different materials is physically meaningless - if you have solid numbers for each chemical species use them. | |||
--[[User:J.M.Pearce|Dr. Pearce]] | |||
==Remark== | |||
Please note that in the vast majority of growth processes, a large excess of As precursor to Ga precursor (that is, a high ratio of e.g. AsH3:Ga(CH3)3) is used. This is because of the volatility of arsenic at elevated temperatures; if an excess is not provided, the resulting material will become astoichiometric and have mediocre properties. Ratios as high as 150:1 are common. Thus, the problem of dealing with waste is primarily a problem of dealing with arsenic rather than gallium. | |||
Latest revision as of 15:25, 7 June 2016
Suggestions[edit source]
- Show your calculations explicitly - e.g. show your equations and where you got the values of the numbers
- Only cite the numbers you found from references
- Show the complete reference - not just the url
- Use superscripts like this2
- Taking an average utilization rate between different materials is physically meaningless - if you have solid numbers for each chemical species use them.
Remark[edit source]
Please note that in the vast majority of growth processes, a large excess of As precursor to Ga precursor (that is, a high ratio of e.g. AsH3:Ga(CH3)3) is used. This is because of the volatility of arsenic at elevated temperatures; if an excess is not provided, the resulting material will become astoichiometric and have mediocre properties. Ratios as high as 150:1 are common. Thus, the problem of dealing with waste is primarily a problem of dealing with arsenic rather than gallium.