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Specific Process Knowledge/Thin film deposition/Deposition of Magnesium: Difference between revisions

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=Deposition of Magnesium=
=Deposition of Magnesium=


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*At Penn State they used a cryo pump with Mg e-beam evaporation for many experiments (at least 2 students and several papers) apparently without issues with the pump.
*At Penn State they used a cryo pump with Mg e-beam evaporation for many experiments (at least 2 students and several papers) apparently without issues with the pump.


===Barbara Shaw, Penn State University ===
*More detailed info may be found in [https://labintra.nanolab.dtu.dk/index.php?title=Main_Page/Application_Notes/Thin_film_deposition/Magnesium_deposition LabIntra] (requires login).
E-beam evaporation of Mg
*Best w dedicated system for Mg.
*Recommend major cleaning prior to Mg, predeposit a bunch of Mg. Major clean afterwards and predeposit next material too. Sounds like their system hasn’t been used for other stuff after Mg, so no experience with that.
*They had no issues w Mg and their cryo pump as far as she knows.
 
===Michael Störmer, Helmholtz-Zentrum Geesthacht Zentrum für Material- und Küstenforschung ===
Sputter deposition and also cathode arc and ion beam sputtering of Mg
*Mg challenging, different to other metals. Oxidizes easily -  think about the environment for the prepared films.
*On cross-contamination: You see the effect of Mg on the base pressure, as you do for Ti coatings, Michael doesn’t think it’s a long-lasting effect. But - don’t underestimate cleanliness.  
*It is possible to contact them and visit their lab. They have a lot of expertise on Mg.
 
===Diederik Depla, Ghent University===
Sputtering including HiPIMS of Mg
*Mainly used their setup for Mg, haven’t checked cross-contamination.
*Believes that Mg on vent will turn into MgO (stable/low-sputter-yield) which should not be a big problem in terms of contamination
*They used a turbo/rotary vane pump, no specific reason.
*Mg sputters easily, easy to handle targets compared to Ca and Li (sic!). During non-reactive sputtering, MgO will form on target but Mg sputters so fast it’s not a big issue.

Latest revision as of 19:25, 10 June 2025

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Deposition of Magnesium

Magnesium is a relatively volatile metal and we have never deposited it here at Nanolab. Because of its high vapor pressure it is not well suited for deposition in multi-user systems as it will easily re-evaporate from the chamber surfaces and contaminate the films of subsequent users. We are also concerned about deposition of Mg in a chamber with a cryo pump as a very volatile metal may clog the pump.

If you wish to deposit magnesium, please explore options with collaborators at other institutions.

Below is a summary of information compiled Spring 2020 when we considered depositing Mg at Nanolab.

Mg advice spring 2020

Input collected by Rebecca (reet)

  • None of the groups we wrote to have mentioned that they have experience with using the chamber for something else after using it for Mg.
  • At Penn State they used a cryo pump with Mg e-beam evaporation for many experiments (at least 2 students and several papers) apparently without issues with the pump.
  • More detailed info may be found in LabIntra (requires login).
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