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SPUTTER STATION
STANDARD OPERATING PROCEDURE
Purpose of this Instrument: This instrument is used for deposition of thin metal or oxide films.
Source materials supplied by WVU Shared Research Facilities:
*All targets are 2” in diameter and can be installed upon request.
• Aluminum • Cobalt • Copper • Chromium • Gold • Cobalt • Nickel • Platinum • Tantalum • Titanium • Zinc Oxide
Location: White Hall 414 Cleanroom
Primary Staff
Contact:
Harley Hart
(412) 443-1514 (M)
(304) 293-5847 (O)
Office: White Hall 409
Secondary
Staff Contact:
The Shared Research Facilities are operated for the benefit of all researchers. If you encounter any
problems with this piece of equipment, please contact the staff member listed above immediately. There
is never a penalty for asking questions. If the equipment is not behaving exactly the way it should, contact
a staff member.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
1
INSTRUMENT START UP____________________________
1. Reserve the equipment in CORES and login using the CORES kiosk in the cleanroom
entry lab.
2. Before entering the cleanroom, check in the
Entry Lab that the gas bottle valves are open
for the following gases – see Figure 1:
• UHP Nitrogen: used for vented of the
loadlock
NOTE: This gas bottle should always be open as
this gas is required for the PLD turbo pump
operation.
• UHP Argon: Sputtering process gas
• UHP Oxygen: Sputtering process gas
Figure 1: White Hall Cleanroom gas bottles and
pressure gauges
WARNING: Users are to ONLY open and close the gas bottle valves. Adjustment of the gas line pressures at the regulators can cause damage to the connected cleanroom equipment.
WARNING: If a gas bottle pressure is below 500 psi, contact a Shared Research Facilities
staff member to change the bottle. Gas used below 500 psi is not ultra-high purity and
can contaminate the system.
3. At the tool, record the following parameters in the log book.
Name
Date
Cryopump Temperature: Value should be less than 15K – see Figure 2. If the
temperature is at or above 15K, contact a Shared Research Facilities staff member
so that the cryopump can be regenerated.
NOTE: Please note that the regeneration of the cryopump will require the user reservation
to be rescheduled.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
2
System Base Pressure: Pressure value should be below 9x10e-8 – see Figure 3. If
the base pressure value is above this value, please contact a Shared Research
Facilities staff member
Target Material(s) to be used.
Figure 2: Cryopump temperature gauge
Figure 3: Main chamber vacuum gauge
4. Open the following gas valves on the wall
manifold behind the tool – see Figure 4:
UHP Nitrogen: Gas used for venting of
the loadlock
UHP Argon: Sputtering process gas
UHP Oxygen: Sputtering process gas
NOTE: Only open the gas valves that are going
to be used for processing. Figure 4: Gas manifold with Nitrogen, Argon and Oxygen
lines open to the sputter station
WARNING: Do not touch the position of the compressed air line as this will cause a change in the target shutter opening speed and could cause damage to the mass flow controllers. If the pressure is incorrect, then contact a Shared Research Facilities staff member.
5. Go behind the tool and check the water
flow rates at the flow meters for the
following – see Figure 5:
Sputter Guns: 0.15 gpm
Substrate Heater: 0.5 gpm
Rf Matching Network: 0.4 gpm
NOTE: Open this flow meter valve only if RF
sputtering is to be conducted.
Cryopump Compressor: 0.8 gpm
Turbo Pump: 0.1 gpm
Figure 5: Water flow meter manifold on the backside of
the sputter station
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
3
SAMPLE PREP____________________________________
1. Retrieve an Inconel sample carrier from
storage box – see Figure 6.
Figure 6: Sample carrier storage box
2. Using the short end of the allen wrench, loosen
the allen screws on sample carrier – see Figure
7.
Figure 7: Allen wrench being used to loosen sample
carrier screws
3. Place sample(s) on sample carrier. Then using
the sample holders move clips onto edge of
sample(s). Tighten the allen screws using the
short end of the allen wrench – see Figure 8.
Figure 8: Attaching sample to the sample carrier
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
4
NOTE: If multiple samples are to be attached to the sample carrier, retrieve additional
clips, washers, and allen screws from the storage box. If you cannot locate these items,
please contact a Shared Research Facilities staff member.
4. Once the samples are attached, verify that the
sample(s) is secure using the sample holders
– see Figure 9.
Figure 9: Using sample holders to verify sample is secure
WARNING: For sputtering, the sample carrier is placed in an upside down orientation during transfer and deposition. Unsecured samples can fall off onto the targets causing possible damage to the tool. Samples that fall off of the substrate carrier will only be retrieved when the main chamber of the tool is brought up to atmosphere for service. If your sample falls off during deposition, please contact a Shared Facilities staff member immediately.
SAMPLE LOADING_________________________________
1. Verify that the gate valve between the main
chamber and loadlock is closed by rotating the
gate valve positioning knob in a
counterclockwise direction – see Figure 10.
Figure 10: Location of the gate valve between the
loadlock and main chamber
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
5
WARNING: Venting the loadlock with the gate valve open will cause the cryopump to
warm-up and a twelve hour regeneration cycle will be required to restart the cryopump.
2. Verify that the loadlock turbo gate valve is
OPEN by turning the positioning knob counter-
clockwise– see Figure 11.
Figure 11: Location of turbo gate valve
3. Turn off the ion gauge filament by pressing the
ION button on the loadlock ion gauge
controller – see Figure 12
Figure 12: Loadlock ion gauge controller and ion button
4. Turn off the turbo pump and by pressing the
PUMPING UNIT button on the turbo controller
– see Figure 13. The green PUMPING UNIT
light will turn off.
Figure 13: Loadlock turbo pump controller
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
6
5. Close the roughing pump to the turbo pump by
turning the valve counter-clockwise – see
Figure 14.
Figure 14: Location of the loadlock roughing pump
valve
6. Set the timer and allow the turbo pump to spin down for 10 minutes before
introducing UHP nitrogen vent gas.
WARNING: Venting the loadlock with the turbo pump spinning at full speed will cause
severe damage to the turbo pump as this will force the turbo pump to spin-down rapidly.
7. After 10 minutes, open the green nitrogen
valve on the loadlock by turning the valve
counter-clockwise. This will introduce
nitrogen into the loadlock and bring the
loadlock up to atmospheric pressure. Once
the loadlock has reached atmospheric
pressure, the hissing of nitrogen gas can be
heard escaping around the loadlock lid. Close
the green nitrogen valve by turning the valve
clockwise – see Figure 15.
Figure 15: Location of the loadlock nitrogen vent valve
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
7
8. Once vented, open the loadlock lid on top of
load lock and swing it backwards – see Figure
16.
Figure 16: Opening of loadlock lid
9. Verify that the loading arm is in the proper position with 3 centering pins on the sample arm facing upwards –see Figure 17.
10. Attach the propeller style sample carrier insertion rod to the back of the sample carrier
–see Figure 18. Lower the sample carrier on to the transfer rod loading arm so that
the centering pins are seated within the three notches of the sample carrier. Then look
through loadlock viewport and verify that the sample carrier is seated flush on the
loading arm.
Figure 17: Sample transfer arm in loading orientation
Figure 18: Sample carrier insertion rod inserted into
the back of the sample carrier
WARNING: Failure to properly insert the sample carrier onto the transfer arm can result in a failure to transfer samples and a loss of samples inside the tool. If this occurs, please contact a Shared Facilities staff member.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
8
11. Remove the propeller style sample carrier insertion rod from the back of the sample
carrier.
12. Using an alpha wipe and IPA, wipe down the o-
ring and verify that it is properly seated within
the groove of the loadlock lid – see Figure 19.
Figure 19: Wiping down of loadlock o-ring with Iso-
propanol
WARNING: Failure to check that the o-ring can result in damage to the o-ring during closure. As a result the loadlock will not pump down and the o-ring will need to be replaced.
13. Close the loadlock lid by pulling it forward.
14. Open the loadlock roughing pump valve by manually turning the black valve
counterclockwise until it stops moving.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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15. Monitor the loadlock vacuum gauge. Once the
gauge reaches 50 mTorr– see Figure 20. Turn
on the turbo pump by pressing pumping on
button on JCP300 controller.
Figure 20: Loadlock vacuum gauge at 50 mTorr
16. Monitor the loadlock vacuum gauge. Once the pressure reaches 0 mTorr, turn on the
loadlock Ion Gauge by pressing the ION button on the loadlock Ion Gauge Controller.
The ion gauge on the loadlock will illuminate.
17. Monitor this pressure until the loadlock
pressure reaches 5x10e-6 which is the
required pressure for transfer. Once this
transfer pressure is reached, close the turbo
gate valve by turning the valve clockwise until
it is fully closed – see Figure 21.
Figure 21: Loadlock ion gauge controller at transfer pressure
18. Open the gate valve between the loadlock and
the main chamber by turning the positioning
know clockwise until it stops – see Figure 22.
Figure 22: Location of loadlock/main chamber gate
valve positioning knob
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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19. Place the Heater Manipulator Controller into
RUN mode. This will allow use of the joystick
during transfer of the sample carrier. On the
Heater Manipulator Controller, push the
joystick upwards to allow clearance for the
transfer arm to slide beneath – see Figure 23.
Figure 23: Heater manipulation controller
NOTE: It will be necessary to use the flashlight located by the tool for the following transfer steps.
20. Slide the manual transfer arm into the main chamber. Visually check that the sample
carrier is centered underneath the propeller style holder on the manipulator.
21. Rotate the manipulator rod so that the propeller end is roughly in same orientation as the propeller style cut-out on the back of the sample carrier. Then using the joystick, bring the propeller end of the manipulator rod downward so that it slides into propeller style cut-out on the back of the sample carrier and it sits flush into the sample carrier. The sample may need to be rotated to allow the screw to slide into the cut-out of the sample carrier on the transfer arm.
WARNING: Do not over drive the manipulator rod downward to the point that deflection of the transfer arm is observed this can severely damage the transfer arm.
22. Push the joystick to the left (IN) to rotate the
manipulator rod. This needs to turn
approximately ½-inch to ¾-inch to ensure the
manipulator end properly inserted into the
back of the sample carrier. This can be
monitored by watching the movement of the
manipulator rod motor on top of the Heater
Manipulator Assembly – see Figure 24.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
11
Figure 24: Z-Manipulator
WARNING: If the manipulator rod turns only ¼-inch then the sample carrier is not properly attached and it may become detached during deposition. As a result damage to the tool can occur and the main chamber will need to be vented.
23. Next, push the joystick upwards to remove the sample carrier from the transfer arm.
Monitor that the sample carrier is removed properly through the front viewport.
24. Slide the loading arm slowly out of the main chamber.
25. Close the gate valve between the main chamber and the loadlock by turning the valve
counter-clockwise until it stops.
26. Open the loadlock turbo gate valve to allow the loadlock to remain under vacuum
during processing.
HEATER OPERATION______________________________
1. Turn on the Heater Controller – see Figure 25.
2. Using the control panel set the heater to the desired setting up to 800˚C – see Figure
25. Set the ramp rate to a maximum of 15˚C/s. Allow the system to reach
temperature prior to conducting deposition.
Figure 25: Heater Controller and the control panel
DC SPUTTER DEPOSITION___________________________
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
12
1. Set the sample rotation to the desired setting
value 1-10 on the manipulator controller and
set the controller mode to JOG – see Figure 26.
Then record this information in the log book.
Figure 26: Z-manipulation controller
2. Set the sample carrier height by moving the
stage downward until the two manipulator
platforms are 3.3” apart. – see Figure 27.
Figure 27: Stage measuring points
3. On the pressure controller, set the desired
deposition pressure value on the pressure
controller. This is done by pressing the up
arrow once and using the knob to change to
SETPOINT A to the desired value. Then press
the DOWN arrow once to go back to the home
screen – see Figure 28. Figure 28: Main Chamber Pressure Controller
4. On the gas controller, zero out the Argon
and/or Oxygen set-points by turning the
channel knob to the channel one for Argon and
channel two for Oxygen. Then turn the zero-
adjustment screw under the appropriate gas
Figure 29: Gas Controller showing z-adjustment
screw and channel knob positions
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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until the output on the display reads zero using
a screwdriver - see Figure 29.
WARNING: Do not rotate the z-adjustment screw more than ten turns in either direction
as the adjustment screw will become disengaged. If the display value fails to increase or
decrease while turning the z-adjustment screw, contact a Shared Facilities staff member.
5. On the gas controller, check the Argon and/or
Oxygen set-points by turning the channel
knob to the channel one for Argon and
channel two for Oxygen. Then hold the
desired gas set-point toggle switch in the up
position as seen in the figure below and
change the set-point to the desired set-point
value using the screwdriver. If you are going
to use a ratio, contact a SRF staff member –
see Figure 30.
Figure 30: Gas controller showing set-point toggle
switch and adjustment screw position
WARNING: Do not rotate the set-point adjustment screw more than ten turns in either
direction as the adjustment screw will become disengaged. If the display value fails to
increase or decrease while turning the set-point adjustment screw, contact a Shared
Facilities staff member.
6. Turn on the power of the DC power supply
and set the control selector to POWER. Press
the set-point button on the power supply and
rotate the power knob to change the power
to the desired set-point – see Figure 31.
Figure 31: DC Power Supply
NOTE: Each sputter gun cable is color coded. Select the DC power supply that
corresponds to the cable that is connected to the desired sputter target.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
14
7. Verify that the sample shutter is between the sample and the sputter targets. This is
done by using the sample shutter adjustment knob as seen in Figure 32.
WARNING: Do not lift upwards on the
positioning knob or the shutter knob will fail to
turn the shutter as the positioning of magnets in
the knob will not be properly aligned. This will
create a need to vent the main chamber to
correct the issue and lead to tool downtime.
Figure 32: Sample shutter positioning knob
8. In the Sputter Deposition software, enter the following parameters – see Figure 33:
Stack - This is for having the software loop the entered sequence. A minimum of
“1” is required.
Target Shutter - Shutter to be opened
Time - The length of time the desired target shutter will be opened.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
15
Figure 33: Sputter deposition software screenshot
9. Turn the filament switch of the main chamber
Ion Gauge to the OFF position on the Ion
Gauge Controller – see Figure 34. The display
will show five dashes and the ION button will
be off. Figure 34: Main chamber ion gauge controller
button
10. Move the toggle switch(s) of the Argon and/or
Oxygen on the gas controller to the ON
position(s) – see Figure 35. The display will
show the flow value. Figure 35: Gas Controller indicating On/Off
toggle switches of the Argon & Oxygen with
the Argon Gas ON.
11. Press SETPOINT A on the Pressure Controller to
activate the throttle valve. Allow the pressure
to stabilize before proceeding – see Figure 36.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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Figure 36: Pressure Controller in operation
12. Once the pressure has stabilized, press the ON button on the DC power supply and
verify that a plasma is lit inside the chamber above the desired target. Verify that the
plasma is stable and allow the target to burn-in to remove any contaminants for at
least one minute – see Figure 37a and Figure 37b.
Figure 37a: DC Power Supply in the ON position
Figure 37b: Plasma ignited in chamber above
desired target
13. Move the substrate shutter counter clockwise prior to starting the process.
14. Press the white arrow icon on the Sputters Station deposition software to open the
target shutter and start the deposition. Verify the shutter is open and then close the
viewport shutters
15. Record the following parameters in the logbook:
Power
Voltage
Time
Gases Used
Gas Flow Rates
Deposition Pressure
Deposition Rate (If this is a calibration samples, measure samples on the XRD or
profilometer prior to recording in the logbook.)
Total Thickness Deposited (If this is a calibration samples, measure samples on
the XRD or profilometer prior to recording in the logbook.)
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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Heater Temperature
16. Once the deposition is complete, the target shutter(s) will close.
17. Manually close the substrate shutter so that it is between the targets and the sample.
18. Press the OFF button on the DC power supply
to turn off the plasma and then press the OFF
button on the power supply to turn OFF the
power supply. – see the Figure 38.
Figure 38: DC Power Supply
19. Move the gas toggle switch (es) on the gas controller to the OFF position(s).
20. Press the OPEN button on the pressure controller to fully open the throttle valve and
pump the chamber back down to base pressure.
21. Press the ION button on the Ion Gauge Controller to power on the main chamber Ion
Gauge. Wait for the system to reach base pressure before removing the sample
carrier.
NOTE: If the heater was used, then begin to ramp down the heater. The sample cannot
be removed until the chamber is at 40˚C.
WARNING: Removing the sample before it has properly cooled, can cause personal
injury as was as damage to the system pumping equipment.
RF SPUTTER DEPOSITION_________________________
WARNING: Failure to turn set the water flow rate on the water manifold for the auto-
matching network can result in severe damage to the tool.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
18
1. Set the sample rotation to the desired setting
from 1-10 on the manipulator controller and
set the controller mode to JOG – see Figure
39.
Figure 39: Z-manipulation controller
2. Set the sample carrier height by moving the
stage downward until the two manipulator
platforms are 3.3” apart – see Figure 40.
Figure 40: Stage measuring points
3. On the pressure controller, set the desired
deposition pressure value on the pressure
controller. This is done by pressing the up
arrow once and using the knob to change to
SETPOINT A to the desired value. Then press
the DOWN arrow once to go back to the home
screen – see Figure 41. Figure 41: Main chamber pressure controller
4. On the gas controller, zero out the Argon
and/or Oxygen set-points by turning the
channel knob to the channel one for Argon and
channel two for Oxygen. Then turn the zero-
adjustment screw under the appropriate gas
Figure 42: Gas controller showing z-adjustment
screw and channel knob positions
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
19
until the output on the display reads zero using
a screwdriver – see Figure 42.
WARNING: Do not rotate the z-adjustment screw more than ten turns in either direction as the adjustment screw will become disengaged. If the display value fails to increase or decrease while turning the z-adjustment screw, contact a Shared Facilities staff member.
5. On the gas controller, check the Argon and/or
Oxygen set-points by turning the channel knob
to the channel one for Argon and channel two
for Oxygen. Then hold the desired gas toggle
switch in the up position as seen in the figure
below and change the set-point to the desired
set-point value using a screwdriver – see
Figure 43. If you are going to use a ratio,
contact a Shared Research Facilities staff
member.
Figure 43: Gas controller showing set-point toggle
switch and adjustment screw positions
WARNING: Do not rotate the set-point adjustment screw more than ten turns in either direction as the adjustment screw will become disengaged. If the display value fails to increase or decrease while turning the set-point adjustment screw, contact a Shared Facilities staff member.
6. Turn on the power to the Auto Matching
network and set the tuning toggle switches to
AUTO – see Figure 44. Figure 44: Auto-matching network
7. Turn on the power of the RF power supply by
pressing the white button on the RF power
supply. Adjust the FWD power to a value
between 30-50W – see Figure 45.
Figure 45: RF Power Supply power button
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
20
8. Verify that the sample shutter is between the
sample and the sputter targets. This is done by
using the sample shutter adjustment knob as
seen in Figure 46.
Figure 46: Sample shutter positioning knob
9. In the Sputter Deposition software, enter the following parameters – see Figure 47:
Stack - This is for having the software loop the entered sequence. A minimum of “1” is required.
Target Shutter - Shutter to be opened
Time - The length of time the desired target shutter will be opened.
Figure 47: Sputter deposition software screenshot
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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10. Turn the filament switch of the main chamber
Ion Gauge to the OFF position on the Ion
Gauge Controller – see Figure 48. The display
will show five dashes and the ION button will
be off.
Figure 48: Main chamber Ion Gauge controller
button
11. Move the toggle switch(s) of the Argon and/or
Oxygen on the gas controller to the ON
position(s) – see Figure 49. The display will
show the flow value.
Figure 49: Gas controller indicating ON/OFF toggle switches of the Argon and Oxygen with Argon gas ON
12. Press SETPOINT A on the Pressure Controller to
activate the throttle valve. Allow the pressure
to stabilize before proceeding – see Figure 50.
Figure 50: Pressure controller in operation
13. Once the pressure has stabilized, press the RF
ON button on the RF power supply and verify
that at a plasma is ignited inside the chamber
above the desired target. Verify that the
plasma is stable and the RF reflective power is
near zero as seen in the readout display of the
RF power supply. Allow the target to burn-in
to remove any contaminants for at least one
minute – see Figure 51.
Figure 51: RF Power Supply
NOTE: Target burn-in times will vary among target materials
14. On the RF power supply slowly ramp the power to the desired setting by pressing the
WHITE UP Arrow until the desired setting is reached.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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NOTE: Maximum power settings are material dependent.
WARNING: Increasing the power to rapidly or above the recommended material setting
can lead to cracking of the target and sever damage to the sputtering gun.
15. Move the substrate shutter counter clockwise prior to starting the process.
16. Press the white arrow icon on the Sputters Station deposition software to open the
target shutter and start the deposition. Verify the shutter and open and then close
the viewports windows shutters.
17. Record the following parameters in the logbook:
Power
Voltage
Time
Gases Used
Gas Flow Rates
Deposition Pressure
Deposition Rate (If this is a calibration samples, measure samples on the XRD or
profilometer prior to recording in the logbook.)
Total Thickness Deposited (If this is a calibration samples, measure samples on the
XRD or profilometer prior to recording in the logbook.)
Heater Temperature
18. Once the deposition is complete, the target shutter(s) will close.
19. Manually close the sample shutter.
20. Press the red Rf ON/OFF button on the RF power supply to turn off the plasma and
then the white power supply ON/OFF button on the power supply to turn OFF the
power supply.
21. Move the toggle switch on the Auto Matching Network to the OFF position.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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22. Move all the toggle switches on the gas controller to the OFF position(s). The gas
flow on the readout display should go to zero for each gas.
23. Press the OPEN button on the pressure controller to fully open the throttle valve and
pump the chamber back down to base pressure.
24. Press the ION button on the Ion Gauge Controller to power on the main chamber Ion
Gauge. Wait for the system to reach base pressure before removing the sample
carrier.
NOTE: If the heater was used, then begin to ramp down the heater. The sample cannot
be removed until the chamber is at 40˚C.
WARNING: Removing the sample before it has properly cooled, can cause personal injury
as was as damage to the system pumping equipment.
SAMPLE REMOVAL________________________________
1. Close the loadlock turbo gate valve.
2. Open the gate valve between the loadlock and the main chamber by turning the valve
clockwise until it stops.
3. With the end of the transfer arm still in the loadlock, rotate the transfer arm defector
so that the pins are pointing downwards. Slide the manual transfer arm into the main
chamber. Visually check that the sample carrier is centered underneath the propeller
style holder on the manipulator.
4. Using the joystick, bring the propeller of the manipulator rod downward so that the
sample carrier sits flush onto the transfer arm. The sample may need to be rotated to
allow the screw to slide into the cutouts of the substrate holder on the transfer arm.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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5. Push the joystick right (TAKE OUT) to rotate the manipulator rod. This needs to turn
approximately ½-inch - ¾-inch to be properly inserted. This can be monitored by
watching the movement of the manipulator rod motor on top of the Heater
Manipulator Assembly.
WARNING: If the manipulator rod turns only ¼” then the sample carrier is not properly attached and it may cause the holder to not be centered on the transfer arm. As a result the sample will not be able to be removed from the tool without venting the main chamber.
6. Next push the joystick, upwards to remove the manipulator rod from the sample
carrier.
7. Slide the loading arm and sample carrier slowly out of the main chamber.
8. Close the gate valve between the main chamber and the loadlock by turning the valve
counter-clockwise until it stops.
9. Verify that the loadlock turbo gate valve is OPEN by turning the positioning knob
counter-clockwise.
10. Turn off the ion gauge filament by pressing the ION button on the loadlock ion gauge
controller.
11. Turn off the turbo pump and by pressing the PUMPING UNIT button on the turbo
controller. The green PUMPING UNIT light will turn off.
12. Close the roughing pump valve to the turbo pump by turning the valve counter-
clockwise.
13. Set the timer and allow the turbo pump to spin down for 10 minutes before
introducing UHP nitrogen vent gas.
WARNING: Venting the loadlock with the turbo pump spinning at full will cause severe
damage to the turbo pump as this will force the turbo pump to spin-down rapidly.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
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14. After 10 minutes, open the green nitrogen valve on the loadlock by turning the valve
counter-clockwise. This will introduce nitrogen into the loadlock and bring the
loadlock up to atmospheric pressure. Once the loadlock has reached atmospheric
pressure, the hissing of nitrogen gas can be heard escaping around the loadlock lid.
Close the green nitrogen valve by turning the valve clockwise.
15. Once vented, open the loadlock lid on top of load lock and swing it backwards.
16. Attach the propeller style sample carrier insertion rod to the back of the sample
carrier. Remove the sample carrier from the transfer rod loading arm.
17. Verify that the loading arm is in the proper position with 3 centering pins on the
sample arm facing upwards.
18. Using an alpha wipe and IPA, wipe down the o-ring and verify that it is properly seated
within the groove of the loadlock lid.
WARNING: Failure to check that the o-ring can result in damage to the o-ring during
closure. As a result the loadlock will not pump down and the o-ring will need to be
replaced.
19. Close the loadlock lid by pulling the loadlock lid forward.
20. Open the loadlock roughing pump valve by manually turning the black valve
counterclockwise until it stops moving.
21. Monitor the loadlock vacuum gauge. Once the gauge reaches 50 mTorr, close the
loadlock roughing pump valve and open the loadlock turbo gate valve.
22. Monitor the loadlock vacuum gauge. Once the pressure reaches 0 mTorr on vacuum
gauge below, turn on the Ion Gauge by pressing the ION button on the loadlock Ion
Gauge Controller. The ion gauge on the loadlock will illuminate. Monitor this pressure
until the loadlock pressure reaches 5x10-6 Torr. Once this pressure is reached press
the ION button on the Ion Gauge Controller to turn OFF the ion gauge. 23. OWN
White Hall Sputter Station Standard Operating Procedure
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TURNING OFF THE SYSTEM_________________________
1. Check the following on the system:
Heater breaker switch is in the OFF position.
Loadlock Ion Gauge filament is OFF.
Pressure Controller Valve is set to OPEN.
Auto Matching Network controller is OFF.
NOTE: This should only be ON if the RF power supply was used.
Target power supplies are OFF.
On the Gas Channel Controller, the gas toggle switches are set to OFF.
Cathode controller filament is ON and the pressure is in the 10-8 range.
RGA power is ON
2. If the RF power supply was used, close the water flow meter valve on the water
manifold on the back of the tool.
3. Close the gas valves on the gas manifold behind the tool.
4. Clean-up the work area by doing the following:
Place all used wipes in the white USED WIPES disposal container located on the
Sample Prep table.
Place sample carrier and tools back into the proper storage containers.
5. Sign out of the CORES system using the barcode scanner in the entry lab.
6. Upon exit close the following gas bottles in the Entry Lab:
UHP Argon: Sputtering process gas.
UHP Oxygen: Sputtering process gas.
NOTE: Leave the UHP Nitrogen gas valve OPEN as this gas is used for the PLD turbo pump.
White Hall Sputter Station Standard Operating Procedure
Revised: 02.03.16
27
EMERGENCY SHUT-DOWN PROCEDURES_______________
If, at any time, the user needs to contact someone for help, call or locate the following staff of the
Shared Research Facility (SRF):
Primary Staff
Contact:
Harley Hart
(412) 443-1514 (M)
(304) 293-5847 (O)
Office: White Hall 409
Secondary
Staff Contact:
Dr. Kolin Brown
(304) 366-6551
(304) 293-9683 (O)
Office: ESB G75D
If no one is available and the instrument is not acting as expected, the user should do the following:
Press the STOP button on the process screen.
Turn off all sputter gun power supplies.
Turn off the heater power supply.
Press OPEN on the pressure controller.
Turn off all gases gas controller.
CLOSE all gas valves on the wall behind the tool.
Go into the Sample Prep lab and CLOSE all process gas bottles.
Then, if possible, the user should stay by the instrument while trying to contact a Shared Facilities staff
member. If it becomes necessary to leave the instrument then the user should leave a large, legible note
on the SPUTTER STATION stating:
The problem (describe what happened and steps taken)
When it occurred (date and time)
User name and phone number
If it becomes necessary to leave the instrument then the user should leave a large, legible note at the
SPUTTER STATION stating the instrument is DOWN.
If a dangerous situation is evident (smoke, fire, sparks, etc.), or if the sound of shattering glass is heard
emitting from the lamp housing, ONLY if it is safe to do so, the user should turn off system, lamp
controller, and vacuum pump or unplug the instrument and leave the cleanroom immediately. The
user should notify all other cleanroom persons within the cleanroom to evacuate. The user should
then contact proper emergency personnel. The contact numbers can be found posted outside of the
cleanroom or on the cover of the instrument log book.