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{{tool|{{PAGENAME}}
{{tool2|{{PAGENAME}}
|picture=Ashers.jpg
|picture=Ashers.jpg
|type = Dry Etch
|type = Dry Etch
|super= Mike Day
|super= Mike Day
|super2= Tony Bosch
|phone=(805)839-3918
|location=Bay 5
|location=Bay 5
|email=day@ece.ucsb.edu
|description = Plasma Etching Systems
|description = Plasma Etching Systems
|manufacturer = Technics
|manufacturer = Technics
|model = PE II-A
|materials =
|materials =
}}
}}


= About =
=About=


These two parallel plate plasma etching systems are generally used to clean organic residue off of semiconductor wafers (ashing), etch organic films, or etch Si<sub>3</sub>N<sub>4</sub> films. The systems are both equipped with O<sub>2</sub> for organic removal. In addition to organic removal, the oxygen plasma is also useful for changing the surface polarity of organic films to facilitate wetting of water-based surface etchants. This is very important for wet-etch processing through small, high aspect ratio photoresist holes or lines. One system also has CF<sub>4</sub>/O<sub>2</sub> 88% / 12% for etching Si<sub>3</sub>N<sub>4</sub>. These systems are operated manually and no sign-up is required.
These two parallel plate plasma etching systems are generally used to clean organic residue off of semiconductor wafers (ashing), etch organic films, or etch Si<sub>3</sub>N<sub>4</sub> films. The systems are both equipped with O<sub>2</sub> for organic removal / surface activation.


One system also has CF<sub>4</sub>/O<sub>2</sub> 88% / 12% for etching Si<sub>3</sub>N<sub>4</sub>. These systems are operated manually and no sign-up is required.
= Detailed Specifications =


===Mechanism===
*Gases used: CF<sub>4</sub> / O<sub>2</sub> and O<sub>2</sub>
This is a low-frequency RIE etch with O2 - using plasma ion bombardment, in a semi-vertical direction (although the higher 300mT pressure does attack sidewalls somewhat). The low kHz frequency allows ion to move with the RF, providing higher ion bombardment
*~ 10mT ultimate chamber pressure

*100 kHz directly coupled excitation source
Low-temp (energy comes from ion acceleration, not temperature).
*Sample size: pieces to 6” wafers

*Gas flow and power control
===Applications===
*Typical process conditions:
Use this for situation where the material to be removed is resistant to chemicals (fluorocarbon polymers - think "plastic") and/or relatively hard (chlorinated PR, after a CL2/BCl2 etch), so physical bombardment is necessary to break up the material, or if high-temp is not acceptable. Typical times: ~2min and microscope inspect and repeat.
**Ashing: O2 300mT, 100W power, 30 sec.

**Si3N4 Etching: CF<sub>4</sub>/O<sub>2</sub> 300mT, 100W, ~ 150 nm / min. etch rate
Stripping full-thickness PR's in the PEii is slow, at something like ~100nm/1min (at standard 100W/300mT).

Surface activation, eg. making the surface hydrophilic before water-based wet-etching (15sec), or dehydration of wafer surface before HMDS application. This is very important for wet-etch processing through small, high aspect ratio photoresist holes or lines.

Increase adhesion of the next deposition (~2-4min), for example right before loading into evaporator for lift-off. Etch is a bit more aggressive and will go through any monolayers (organic or otherwise), and possibly slightly roughen the surface

=Detailed Specifications=

*Gases used: CF<sub>4</sub> / O<sub>2</sub> (88%/12%) and O<sub>2</sub>
*~ 10mT ultimate chamber pressure
*100 kHz (low frequency) directly coupled excitation source
*Sample size: pieces to 6” wafers
*Gas flow and power control

==Recipes==

*'''Oxygen Plasma recipes > [[Oxygen Plasma System Recipes#Ashers .28Technics PEII.29|<u>Ashers (Technics PEii)</u>]]'''

Latest revision as of 20:06, 11 November 2022

Ashers (Technics PEII)
Ashers.jpg
Location Bay 5
Tool Type Dry Etch
Manufacturer Technics
Model PE II-A
Description Plasma Etching Systems

Primary Supervisor Mike Day
(805) 893-3101
day@ece.ucsb.edu

Secondary Supervisor

Tony Bosch


Recipes Dry Etch Recipes


About

These two parallel plate plasma etching systems are generally used to clean organic residue off of semiconductor wafers (ashing), etch organic films, or etch Si3N4 films. The systems are both equipped with O2 for organic removal / surface activation.

One system also has CF4/O2 88% / 12% for etching Si3N4. These systems are operated manually and no sign-up is required.

Mechanism

This is a low-frequency RIE etch with O2 - using plasma ion bombardment, in a semi-vertical direction (although the higher 300mT pressure does attack sidewalls somewhat). The low kHz frequency allows ion to move with the RF, providing higher ion bombardment

Low-temp (energy comes from ion acceleration, not temperature).

Applications

Use this for situation where the material to be removed is resistant to chemicals (fluorocarbon polymers - think "plastic") and/or relatively hard (chlorinated PR, after a CL2/BCl2 etch), so physical bombardment is necessary to break up the material, or if high-temp is not acceptable. Typical times: ~2min and microscope inspect and repeat.

Stripping full-thickness PR's in the PEii is slow, at something like ~100nm/1min (at standard 100W/300mT).

Surface activation, eg. making the surface hydrophilic before water-based wet-etching (15sec), or dehydration of wafer surface before HMDS application. This is very important for wet-etch processing through small, high aspect ratio photoresist holes or lines.

Increase adhesion of the next deposition (~2-4min), for example right before loading into evaporator for lift-off. Etch is a bit more aggressive and will go through any monolayers (organic or otherwise), and possibly slightly roughen the surface

Detailed Specifications

  • Gases used: CF4 / O2 (88%/12%) and O2
  • ~ 10mT ultimate chamber pressure
  • 100 kHz (low frequency) directly coupled excitation source
  • Sample size: pieces to 6” wafers
  • Gas flow and power control

Recipes