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== Overview ==
{{Infobox tool
|image = Tools Plassys.jpg
|toolfullname = MEB550S
|website = https://plassys.com/
|company =  Plassys
|description = Evaporation system
|location = 1st floor lab (03.2.213)
|primary = Harry
|secondary = Martin
}}
 
= Overview =
Physical vapour deposition tool of aluminium via e-beam evaporation for Josephson junction fabrication.


Physical vapor deposition tool of aluminum via e-beam evaporation for Josephson junction fabrication.
It also provides an ion gun for surface preparation and etching purposes.  
It also provides an ion gun for surface preparation and etching purposes.  
The system has the capability of in-situ oxidation .


Film Quality : Surface roughness - 1.6 nm for 100nm thick film ( scan area 2 um /AFM Analysis ( June 2023)
The system has the capability of in-situ oxidation.
 
The sample stage can be cooled with LN2.
 
Film Quality: ''Surface roughness - 1.6 nm for 100nm thick film ( scan area 2 um /AFM Analysis (June 2023)''


== Currently loaded materials ==
= Currently loaded materials =


{|
{| class="wikitable"
|-
|-
|
! Crucible position!! Material!! Comment
{| class="wikitable"
|-
|-
! Crucible position
| 1 || Ti || Currently In Use
! Material
! Comment
|-
|-
| 1
| 2 || - || Empty
| Ti
| Plassys ( currently In Use)
|-
|-
| 2
| 3 || -|| Empty
| Al
| Plassys ( Material consumed)
|-
|-
| 3
| 4 || Al || NBI crucible
| Al
| Melted. Currently In Use
|-
|-
| 4
| 5 || Al || NQCP crucible
| Al
| new pellets. Not melted
|}
|}


== Substrates allowed ==
= Substrates allowed =
* Silicon and Sapphire only
* III/V substrates are not allowed in the chamber
 
= Standard Operating Procedure=
This is the standard operating procedure for the Plassys evaporator at the process lab on the second floor.
==Pre-checks and log in==
===Pre-checks===
# '''Is the oxygen alarm beeping?'''
#: ''Leave the room immediately and notify the cleanroom staff''
# Log the loadlock and main chamber pressures in the Excel log sheet at the external computer.
#* P<sub>LL</sub> ~ 1e-7 bar
#* P<sub>main</sub> < 5e-8 bar
# Verify that the turbopump and the cryopump are both running (check main software interface)
#* Turbo should be running on 100% speed
#* T<sub>cryo</sub> should be in the range 12-15 K
# Verify that nobody has loaded a sample and that no user is logged on
===Log in===
* Click on the <code>logged off</code> indication of the GUI and use your group's credentials to log in
==Sample loading==
# On the <code>- LL state -</code> side of the user interface click <code>VENT</code>
# Wait for the load lock to vent.
#:''The venting is complete when you stop hearing the hissing sound of the N2 line''
# Wear gloves. Sleeves and hair net are also recommended.
# Use the stepping stool to have better access to the loadlock
#:'' Be careful with the ventilation unit above the tool''
# Open the loadlock lid
# Use the dedicated screwdriver to loosen the three main screws
# Rotate the holder to release it from the main stage.
# Place the holder on a cleanroom wipe on the table
# Close the LL lid
# Clamp your substrate to the holder. There are many available holders. Use the one that your group recommends.
#: '''Keep the unused holders in the N2 desiccator'''
# Align the holder pin with the pin in the chamber. This will help you with any angled evaporations.
# Tighten the screws with the dedicated screwdriver and place it back in its holder.
# On the <code>- LL state -</code> side of the user interface, click <code>PUMP</code>
#: The loadock will start pumping first with the scroll pump (up to 1e-1 bar) and then with the turbopump.
 
==Load your recipe==
While the loadlock is pumping down, you can prepare your recipe
# Click on the '''Edit process''' icon
# <code>File > Open recipe> ...</code> Choose from your group folde
# Edit the main parameters such as time, thickness, and  tilt
# Save the recipe
#: ''On the saved recipe name you automatically get the date added''
# Close the window
 
==Excecute your recipe==
* '''Are you doing evaporation?'''
*: ''Turn on the Carrera power supply''
* '''Are you doing milling?'''
*: ''Turn on the Kaufman control unit and open the valve of the argon bottle''
* '''Are you doing oxidation?'''
*: ''Verify that the oxygen bottle valve is open''
 
# Click on the '''Run process''' icon
# Load your recipe
# Verify all your steps
#Click <code>Execute</code>
 
==Monitor your process==
* '''Do not leave the system unattended'''
 
* During your process, you will be asked multiple times to check that the system is in the correct state and you need to be present to aknowledge these messages
 
* Keep the viewport shutter always closed
 
* There is a polariser filter on the viewport that you can use when the crucible is bright. See the indications about the positioning of the polariser (transparent vs opaque)


Silicon and Sapphire only
==Sample unloading==
# Accept the ''Process complete'' pop-up message
# Turn off the Carrera power supply, Kaufman controller, and close the valces of the gas bottles
# On the <code>- LL state -</code> side of the user interface click <code>VENT</code>
# Wait for the load lock to vent.
#:''The venting is complete when you stop hearing the hissing sound of the N2 line''
# Wear gloves. Sleeves and hair net are also recommended.
# Use the stepping stool to have better access to the loadlock
#:'' Be careful with the ventilation unit above the tool''
# Open the loadlock lid
# Use the dedicated screwdriver to loosen the three main screws
# Rotate the holder to release it from the main stage.
# Place the holder on a cleanroom wipe on the table
# Close the LL lid
# Remove your chip from the holder.
# Wipe the holder with ethanol
# Place the holder back into the loadlock.
#: If you used a holder from your own group, then place your holder back into the descicator and load the holder that was initially in the chamber.
# Align the holder pin with the pin in the chamber.
# Tighten the screws with the dedicated screwdriver and place it back in its holder.
# On the <code>- LL state -</code> side of the user interface, click <code>PUMP</code>
#: The loadock will start pumping first with the scroll pump (up to 1e-1 bar) and then with the turbopump.
#: '''Verify that the load lock is pumping down'''
# Go to <code>File</code> and '''Log off'''
# Verify that '''the surfaces are tidy, there are no excess wipes on the table and you left no samples or sample boxes behind'''.

Latest revision as of 08:49, 10 September 2025

Plassys Evaporator
Picture of Plassys Evaporator text
Essentials
Full nameMEB550S
ManufacturerPlassys
DescriptionEvaporation system
Location1st floor lab (03.2.213)
Responsibility
PrimaryHarry
SecondaryMartin

Overview

Physical vapour deposition tool of aluminium via e-beam evaporation for Josephson junction fabrication.

It also provides an ion gun for surface preparation and etching purposes.

The system has the capability of in-situ oxidation.

The sample stage can be cooled with LN2.

Film Quality: Surface roughness - 1.6 nm for 100nm thick film ( scan area 2 um /AFM Analysis (June 2023)

Currently loaded materials

Crucible position Material Comment
1 Ti Currently In Use
2 - Empty
3 - Empty
4 Al NBI crucible
5 Al NQCP crucible

Substrates allowed

  • Silicon and Sapphire only
  • III/V substrates are not allowed in the chamber

Standard Operating Procedure

This is the standard operating procedure for the Plassys evaporator at the process lab on the second floor.

Pre-checks and log in

Pre-checks

  1. Is the oxygen alarm beeping?
    Leave the room immediately and notify the cleanroom staff
  2. Log the loadlock and main chamber pressures in the Excel log sheet at the external computer.
    • PLL ~ 1e-7 bar
    • Pmain < 5e-8 bar
  3. Verify that the turbopump and the cryopump are both running (check main software interface)
    • Turbo should be running on 100% speed
    • Tcryo should be in the range 12-15 K
  4. Verify that nobody has loaded a sample and that no user is logged on

Log in

  • Click on the logged off indication of the GUI and use your group's credentials to log in

Sample loading

  1. On the - LL state - side of the user interface click VENT
  2. Wait for the load lock to vent.
    The venting is complete when you stop hearing the hissing sound of the N2 line
  3. Wear gloves. Sleeves and hair net are also recommended.
  4. Use the stepping stool to have better access to the loadlock
    Be careful with the ventilation unit above the tool
  5. Open the loadlock lid
  6. Use the dedicated screwdriver to loosen the three main screws
  7. Rotate the holder to release it from the main stage.
  8. Place the holder on a cleanroom wipe on the table
  9. Close the LL lid
  10. Clamp your substrate to the holder. There are many available holders. Use the one that your group recommends.
    Keep the unused holders in the N2 desiccator
  11. Align the holder pin with the pin in the chamber. This will help you with any angled evaporations.
  12. Tighten the screws with the dedicated screwdriver and place it back in its holder.
  13. On the - LL state - side of the user interface, click PUMP
    The loadock will start pumping first with the scroll pump (up to 1e-1 bar) and then with the turbopump.

Load your recipe

While the loadlock is pumping down, you can prepare your recipe

  1. Click on the Edit process icon
  2. File > Open recipe> ... Choose from your group folde
  3. Edit the main parameters such as time, thickness, and tilt
  4. Save the recipe
    On the saved recipe name you automatically get the date added
  5. Close the window

Excecute your recipe

  • Are you doing evaporation?
    Turn on the Carrera power supply
  • Are you doing milling?
    Turn on the Kaufman control unit and open the valve of the argon bottle
  • Are you doing oxidation?
    Verify that the oxygen bottle valve is open
  1. Click on the Run process icon
  2. Load your recipe
  3. Verify all your steps
  4. Click Execute

Monitor your process

  • Do not leave the system unattended
  • During your process, you will be asked multiple times to check that the system is in the correct state and you need to be present to aknowledge these messages
  • Keep the viewport shutter always closed
  • There is a polariser filter on the viewport that you can use when the crucible is bright. See the indications about the positioning of the polariser (transparent vs opaque)

Sample unloading

  1. Accept the Process complete pop-up message
  2. Turn off the Carrera power supply, Kaufman controller, and close the valces of the gas bottles
  3. On the - LL state - side of the user interface click VENT
  4. Wait for the load lock to vent.
    The venting is complete when you stop hearing the hissing sound of the N2 line
  5. Wear gloves. Sleeves and hair net are also recommended.
  6. Use the stepping stool to have better access to the loadlock
    Be careful with the ventilation unit above the tool
  7. Open the loadlock lid
  8. Use the dedicated screwdriver to loosen the three main screws
  9. Rotate the holder to release it from the main stage.
  10. Place the holder on a cleanroom wipe on the table
  11. Close the LL lid
  12. Remove your chip from the holder.
  13. Wipe the holder with ethanol
  14. Place the holder back into the loadlock.
    If you used a holder from your own group, then place your holder back into the descicator and load the holder that was initially in the chamber.
  15. Align the holder pin with the pin in the chamber.
  16. Tighten the screws with the dedicated screwdriver and place it back in its holder.
  17. On the - LL state - side of the user interface, click PUMP
    The loadock will start pumping first with the scroll pump (up to 1e-1 bar) and then with the turbopump.
    Verify that the load lock is pumping down
  18. Go to File and Log off
  19. Verify that the surfaces are tidy, there are no excess wipes on the table and you left no samples or sample boxes behind.
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