Difference between revisions of "Denton Explorer14 Magnetron Sputterer"

From Quattrone Nanofabrication Facility
Jump to navigation Jump to search
Line 18: Line 18:
 
== Description ==
 
== Description ==
  
===== Tool overview =====
+
==== Tool overview ====
  
 
The Denton Explorer-14 is a magnetron sputter deposition tool for depositing metallic and dielectric films (such as oxides). Sputter deposition is achieved by bombarding a source material with energetic ions, typically Ar+. Atoms at the surface of the target are knocked loose, and transported to the surface of the substrate, where deposition occurs. The tool is an open load system in sputter-down configuration with one dedicated DC source and two sources that can use either a DC or RF power supply. Co-deposition from two DC sources or one DC and one RF source is possible, but it is recommended to run co-deposition on PVD-03 as the sources in this tool are not in confocal mode per default. The tool is equipped with a cryo-pump, with an automated interface, accepting substrate sizes from pieces through wafers with 150 mm diameters. The tool has platen rotation and cooling.
 
The Denton Explorer-14 is a magnetron sputter deposition tool for depositing metallic and dielectric films (such as oxides). Sputter deposition is achieved by bombarding a source material with energetic ions, typically Ar+. Atoms at the surface of the target are knocked loose, and transported to the surface of the substrate, where deposition occurs. The tool is an open load system in sputter-down configuration with one dedicated DC source and two sources that can use either a DC or RF power supply. Co-deposition from two DC sources or one DC and one RF source is possible, but it is recommended to run co-deposition on PVD-03 as the sources in this tool are not in confocal mode per default. The tool is equipped with a cryo-pump, with an automated interface, accepting substrate sizes from pieces through wafers with 150 mm diameters. The tool has platen rotation and cooling.
  
===== Maximum power =====
+
==== Maximum power ====
  
 
*Maximum DC Power: 600 W.
 
*Maximum DC Power: 600 W.
Line 29: Line 29:
  
 
You can inflict serious damage to the power supplies if these values are exceeded.
 
You can inflict serious damage to the power supplies if these values are exceeded.
 +
 +
 +
==== Main differences between PVD-05 (this tool) and PVD-03 ====
 +
 +
===== PVD-05 =====
 +
*Three sputter sources ()
 +
*This tool cannot sputter magnetic materials
 +
 +
===== PVD-03 =====
  
 
== Available materials & process data ==
 
== Available materials & process data ==

Revision as of 16:39, 24 January 2023


Denton Explorer14 Magnetron Sputterer
PVD-05.jpeg
Tool Name Denton Explorer14 Magnetron Sputterer
Instrument Type Deposition
Staff Manager Jason (jarohr@seas.upenn.edu)
Lab Location Bay 2
Tool Manufacturer Denton
Tool Model Explorer14
NEMO Designation {{{NEMO_Designation}}}
Lab Phone 215-898-9748
SOP Link SOP

Description

Tool overview

The Denton Explorer-14 is a magnetron sputter deposition tool for depositing metallic and dielectric films (such as oxides). Sputter deposition is achieved by bombarding a source material with energetic ions, typically Ar+. Atoms at the surface of the target are knocked loose, and transported to the surface of the substrate, where deposition occurs. The tool is an open load system in sputter-down configuration with one dedicated DC source and two sources that can use either a DC or RF power supply. Co-deposition from two DC sources or one DC and one RF source is possible, but it is recommended to run co-deposition on PVD-03 as the sources in this tool are not in confocal mode per default. The tool is equipped with a cryo-pump, with an automated interface, accepting substrate sizes from pieces through wafers with 150 mm diameters. The tool has platen rotation and cooling.

Maximum power

  • Maximum DC Power: 600 W.
  • Maximum RF Power: 200 W.

You can inflict serious damage to the power supplies if these values are exceeded.


Main differences between PVD-05 (this tool) and PVD-03

PVD-05
  • Three sputter sources ()
  • This tool cannot sputter magnetic materials
PVD-03

Available materials & process data

All process data were recorded at a base pressure lower than 5 x 10-6 Torr; you can never exceed 200 W on RF and 600 W on DC.

Material Name Max power Process data Recorded
Pressure Power Rate
Ag (silver) 450 W 3 mTorr 140 W 7.3 Å s-1
Al (aluminum) 450 W 3 mTorr 200 W 3.0 Å s-1
Au (gold) 140 W 3 mTorr 140 W 4.6 Å s-1
Cr (chromium) 450 W - - -
Cu (copper) 450 W 3 mTorr 400 W 3.4 Å s-1
Fe (iron) 350 W - - -
Ge (germanium) 140 W - - -
ITO (Indium tin oxide) 140 W - - -
Mn (manganese) 140 W - - -
Mo (molybdenum) 450 W 3 mTorr 140 1.9 Å s-1
Ni (nickel) 350 W - - -
Pd (palladium) 140 W - - -
Pt (platinum) 140 W 3 mTorr 140 W 2.6 Å s-1
i-Si (intrinsic silicon) 140 W - - -
n-Si (n-type silicon) 280 W - - -
p-Si (p-type silicon) 280 W - - -
Ti (titanium) 350 W 3 mTorr 350 W 2.0 Å s-1
TiO2 (titanium dioxide) 140 W - - -
W (tungsten) 450 W - - -
YSZ (yttria-stabilized zirconia) 140 W - - -

Resources

SOPs & Troubleshooting
Target request form

Master recipes

Note that some recipes have both ramp-up and ramp-down steps. The deposition step can always be found by locating when the shutter is open.

The post-deposition cool-down time will vary for different materials depending on their propensity for oxidation. For example, Ag has a long cool-down time of 15 minutes.

Titanium (Ti)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Aluminum (Al)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Copper (Cu)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Silver (Ag)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Gold (Au)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Platinum (Pt)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Tungsten (W)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Molybdenum (Mo)
Step Number T000 T001 T002 T003 T004 T005 T006
Step Time (sec) - - - - - - -
Min Vacuum Setpoint (Torr) - - - - - - -
Gas - (PID or Fixed) - - - - - - -
Gas - PID Master Gas Select - - - - - - -
Gas1 - Setpoint (sccm) - - - - - - -
Gas2 - Setpoint (sccm) - - - - - - -
Gas PID Pressure (mTorr) - - - - - - -
RF Source - Sputter (Watts) - - - - - - -
RF Source - Cathode Select - - - - - - -
RF Source - Shutter - - - - - - -
DC 1 Source - Sputter (Watts) - - - - - - -
DC 1 Source - Cathode Select - - - - - - -
DC 1 Source - Shutter - - - - - - -
DC 2 Source - Sputter (Watts) - - - - - - -
DC 2 Source - Shutter - - - - - - -
Pressure Control (Throttle) - - - - - - -
Ignition Pressure (mTorr) - - - - - - -
Rotation Speed (0-100%) - - - - - - -
End Process (Yes) - - - - - - -
Retrieved from "https://wiki.nano.upenn.edu/wiki/index.php?title=Denton_Explorer14_Magnetron_Sputterer&oldid=845"