Specific Process Knowledge/Etch/DryEtchProcessing/Comparison
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Hardware and option comparison of the dry etchers
The table below compares the hardware and the options.
| ASE | AOE | DRIE-Pegasi | ICP Metal etch | III-V RIE | III-V ICP | IBE/IBSD Ionfab 300 | ||||||||||||||||||||||||||||||||||||||||||||||
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| Pegasus 1 | Pegasus 2 | |||||||||||||||||||||||||||||||||||||||||||||||||||
| Purpose | Primary uses | Formerly the primary silicon etcher; now polymers, Silicon oxides and nitrides may also be etched. 5% metal on the surface is allowed. | Etching of silicon oxides or nitrides | Silicon etching | Standard recipes for etching of Al, Cr and Ti, now also etches of W, TiW and Mo | Etching of silicon oxide, resist, BCB, silicon nitride, InP, InGaAs and GaAs on III-V substrates | Etching of III-V materials such as GaN, InP/InGaAsP/InGaAs, AlGaAs, GaAs | Physical Etching of all materials | ||||||||||||||||||||||||||||||||||||||||||||
| Alternative/backup uses | Backup silicon etcher | Barc etch | Silicon etcher | |||||||||||||||||||||||||||||||||||||||||||||||||
| General description | Plasma source | Inductively coupled plasma chamber with two RF generators; the coil and platen generator | Inductively coupled plasma chamber with two RF generators; the coil and platen generator | Inductively coupled plasma chamber with two RF generators; the coil (with outer and inner coil) and platen generator | Inductively coupled plasma chamber with two RF generators; the coil and platen generator | Parallel plate capacitor setup with RF power between the two electrodes | Inductively coupled plasma chamber with two RF generators; the coil and platen generator | Ion beam etcher - sputter etches with argon ions | ||||||||||||||||||||||||||||||||||||||||||||
| Substrate cooling/temperature | The electrode is oil cooled. Also, Helium backside cooling: -10oC to 20oC | The electrode is oil cooled. Also, Helium backside cooling: -10oC to 60oC | The electrode is oil cooled. Also, Helium backside cooling: -20oC to 30oC | The electrode is oil cooled. Also, Helium backside cooling: -10oC to 50oC | The electrode is oil cooled: Fixed at 20oC | The electrode is oil cooled with a special chiller. Also, Helium backside cooling: 20oC to 180oC | The electrode is oil cooled with a special chiller. Also, Helium backside cooling: 5oC to 60?oC | |||||||||||||||||||||||||||||||||||||||||||||
| Clamping/wafer size | Electrostatic clamping (semco electrode) Wafer size 4" |
Electrostatic clamping (TDESC) Wafer size 4" |
Electrostatic clamping (TDESC) Wafer size 4" |
Electrostatic clamping (TDESC) Wafer size 6" |
No clamping Sample size up to 4" |
Mechanical clamping (weighted clamp with ceramic fingers) Wafer size 4" |
Mechanical clamping Wafer sizes 2"/4"/6"/8" | |||||||||||||||||||||||||||||||||||||||||||||
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| Substrate loading | Loading via dedicated two-slot carousel load lock | Loading via dedicated two-slot carousel load lock | Loading via dedicated two-slot carousel load lock or via atmospheric cassette loader | Loading via dedicated two-slot carousel load lock | Loading via dedicated two-slot carousel load lock | Manual loading directly into process chamber | Loading via dedicated two-slot carousel load lock | Automatic loading via load lock | ||||||||||||||||||||||||||||||||||||||||||||
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