MTI Evaporator SOP (No longer in use)

Parameters

Purpose

Figure from Microchip Fabrication (Van Zant, 2004)

Tools

1. MTI Thermal Evaporator with Inficon Film Thickness Monitor

Materials

1. Kapton tape

2. 99.999% Aluminum wire

3. Recommended: piranha solution

Procedure

Preparation

3. Place the chip on a hot plate at 180°C for 90 minutes. Cover it to avoid surface contamination.

4. Wear gloves while handling parts exposed to vacuum because oil from your hands will outgas.

5. Use double sided kapton tape to attach the chip(s) to the center of the substrate holder.

6. Put 20 cm of aluminum wire into the crucible.

Bakeout

2. Carefully close the chamber.

3. Check that the vent knob on the turbopump is fully closed by turning clockwise.

4. Start the vacuum by pressing the on/off button on the pump.

2. Wait for the pressure to get below 5E-5 hPa. You can also program the bakeout to have a long 0°C segment at the beginning.

3. Make sure that the current knob on the side of the evaporator is in the “Auto” position.

4. Press “Set” and “◀” to return to the standby state, then press and hold “▼” for 2 seconds to start the program. Press the green run button to enable current flow.

Evaporation

1. Ensure the pressure reads less than 5E-6 hPa.

2. Program the evaporator to ramp to 1125°C over 2000 seconds, hold for 500 seconds, and ramp down over 2000 seconds.

3. Start the program. Set a timer for 28 minutes so that you open the shutter at the right time.

4. Set up the film thickness monitor by plugging its USB cable into the laptop and starting the STM-2 software.

5. When the evaporator reaches the target temperature, open the shutter using the knob at the top of the chamber and press “zero” on the STM-2 software.

6. Monitor and record the pressure (should be below 5E-6 hPa) and deposition rate (should be greater than 5 Å/s) during the evaporation.

7. When the temperature starts to drop, close the shutter.

8. Wait for the temperature to drop below 350°C before proceeding

Vent

1. Turn off the pump by pressing the same on/off button.

2. Wait 10 minutes for the turbopump blades to slow down.

3. Slowly turn the knob on the turbopump until the pressure starts to increase (<¼ turn). Don’t open it all the way or the rapid pressure increase will destroy the pump, which is still spinning really fast.

4. Wait another 10 minutes.

5. Once the pressure has increased to 1 hPa, open the valve a bit more. Wait until the chamber is at 1000 hPa (1 bar).

6. Open the chamber and place the substrate holder face up.

7. Use a utility knife blade to separate the chip(s) from the substrate holder.

8. Peel/scrape off any tape residue left on the chip.

Anneal

400-500C

Safety

1. As previously mentioned, don’t vent the chamber too quickly. Turbopumps supposedly have the kinetic energy of a car on a highway and can “grenade”... we don’t want to find out what that means.

2. The sample holder may be hot. Be careful.

Appendix

Flash Evaporation Alternate Technique

Use this as a backup technique when the crucible/thermocouple are out of commission. No temperature control is used, instead we manually control the current running through a tungsten filament with aluminum wire wrapped around it. This is a quicker, less accurate technique. The deposition monitor can still be used to determine when the metal is depositing on the chip, though it may be less accurate due to the rate of deposition.

Preparation

1. Use a 3-wire tungsten filament instead of a crucible. Wrap 20 cm of aluminum wire around it, keeping away from either end.

2. Screw it into the terminal posts in the evaporator.

3. Scrape/wipe off some deposited aluminum from the glass jar so that you can see into the chamber.

4. Follow all other steps for pump down, except anything that mentions programming temperatures.

Evaporation

1. Turn the switch on the right of the machine clockwise so it's set to manual mode.

2. Use the knob above it to set current to 12A. The current is displayed on the front panel.

3. Monitor the filament for ~5 minutes until it starts to glow. The aluminum will also melt and wet onto the filament.

4. Increase the current to ~20A. It should start to glow white hot. If the deposition monitor is on, it should start to record some deposition. The walls of the chamber will also turn opaque from the aluminum. Hold for a couple minutes.

5. Decrease the current to 10A, then 5A, then 0A to slowly cool the filament. Wait 10 minutes.

6. Follow the vent procedure listed above.

Misc. notes that need to be organized:

Manually switch to evaporation procedure (based on evaporation data spreadsheet, using thickness monitor to determine when to stop)

Sam only evaporated for 1 minute, we are doing ~15?

Let it evaporate at 1100 for 3 min before moving guard to expose chip

This is because there is scum in the crucible and might be oxygen in the chamber at the beginning of evaporation that causes aluminum oxide to build on chip

1. Evaporation is faster than sputtering (supposedly, it might be equivalent because evaporation operates at a much lower pressure than sputtering so pump down and bakeout take a whi