Specific Process Knowledge/Etch/ICP Metal Etcher: Difference between revisions

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== Recipes on the Metal Etcher ==
== Recipes on the Metal Etcher ==
=== Aluminium etch ===
The aluminium etch has two steps:
; Breakthrough
: The breakthrough step is designed to break through the native aluminium oxide layer that is present on all aluminium surfaces. The duration of this step should remain fixed.
; Main
: The main step etches bulk aluminium.
{| border="2" cellpadding="2" cellspacing="1" style="text-align:center;"
|+ '''Al etch'''
|-
! rowspan="2" | Parameter
! colspan="2" | Process step
|-
! width="200" | Breakthrough
! width="200" | Main
|-
! Time (secs)
| 20
| 40 (variable)
|-
! HBr (sccm)
| -
| 15
|-
! Cl<sub>2</sub> (sccm)
| 20
| 25
|-
! Pressure (mTorr)
| 2,  Strike 3 secs @ 15 mTorr???
| 1
|-
! Coil power (W)
| 600
| 500
|-
! Platen power (W)
| 125
| 100
|-
! Temperature (<sup>o</sup>C)
| 20
| 20
|-
! Spacers (mm)
| 30
| 30
|-
|}


===Chromium etch===
===Chromium etch===

Revision as of 21:35, 10 December 2012

The ICP Metal Etcher

The ICP Metal Etcher allows you to dry etch a small set of metals that includes aluminium, titanium, chromium, titanium tungsten and molybdenum (along with the related oxides and nitrides). It is, despite its name, strictly forbidden to etch (or expose to plasma) other metals. In order to do so use the IBE/IBSD Ionfab 300.

The gasses available for etching include flourine, chlorine and bromine.

Process information

An overview of the performance of the ICP Metal Etcher and some process related parameters

Purpose Dry etch of
  • Metals such as aluminium, chromium and titanium and the related oxides and nitrides
  • Metals such as molybdenum, tungsten, titanium tungsten
Performance Etch rates
  • Alumninium : ~350 nm/min (depending on features size and etch load)
Anisotropy
  • Good
Process parameter range Process pressure
  • ~0.1-95 mTorr
Gas flows
  • SF6: 0-100 sccm
  • O2: 0-100 sccm
  • C4F8: 0-100 sccm
  • Ar: 0-100 sccm
  • CF4: 0-100 sccm
  • H2: 0-30 sccm
  • CH4: 0-50 sccm
  • BCl3: 0-100 sccm
  • Cl2: 0-100 sccm
  • HBr: 0-100 sccm
Substrates Batch size
  • 1 6" wafer per run
  • 1 4" wafer per run
  • 1 2" wafer per run
  • Or several smaller pieces on a carrier wafer
Substrate material allowed
  • Silicon wafers
    • with layers of silicon oxide or silicon (oxy)nitride
  • Quartz wafers
Possible masking material
  • Photoresist/e-beam resist
  • PolySilicon, Silicon oxide or silicon (oxy)nitride
  • Aluminium, titanium or chromium

Recipes on the Metal Etcher

Chromium etch

The Chromium etch has ONLY been carried out on the following substrate stack: The Chromium is sputter deposited onto a 2" quartz wafer and pattered by e-beam with Zep520A resist. This 2" QZ wafer is bonded with crystal bond to a 65mmx65mm quartz plate with the thickness: 6.35mm. This QZ plate is bonded to a Si wafer.

Cr etch
Parameter Cr etch
Cl2 (sccm) 65
O2 (sccm) 15
Pressure (mTorr) 15
Coil power (W) 300
Platen power (W) 15
Temperature (oC) 50 (no back side cooling)
Spacers (mm) 100
Etch rate (nm/min) ~14
Zep520A resist selectivity ~0.9
Comment .


Etching of nanostructures in silicon

A series of experiments with etching nanostructures in silicon has been carried out. The common process parameters are:

Substrates
A pattern containing 30 nm, 60 nm, 90 nm, 120 nm and 150 nm wide lines has been transferred using E-beam lithography onto three separate batches of 2" wafers (with three different thicknesses of zep resist). In order to make sure that the narrowest features are fully opened they are intentionally over-exposed in the E-beam writer (400 muC/cm2) causing the lines to widen. The resist profiles of the three batches are:

The exposed area is very small. The 211 nm batch has the same lines distributed in a different way that allows you monitor the progress of the etch in three different durations by cleaving off a piece of the wafer 3 times. After E-beam exposure the wafers have been developed: N50 for 2 minutes followed by 30 seconds of IPA.

Substrate mounting
The 2" wafers are mounted with crystalbond in the center of 4" Si carriers that have an oxide layer facing the plasma.
Conditioning the process chamber


Recipe Sinano 3.0 3.1 3.2 3.3 3.4 4.0 3.5 3.6 3.3 3.7 3.31 3.31 3.32
Cl2 (sccm) 0 0 0 0 0 20 15 15 0 0 0 0 0
BCl3 (sccm) 5 3 5 5 5 0 5 5 5 5 5 5 5
HBr (sccm) 15 17 15 15 15 0 0 0 15 15 15 15 15
Coil power (W) 900 L 900 F 900 F 900 F 900 F 900 L 900 L 900 F 900 F 900 L 900 F 900 F 900 F
Platen power (W) 50 50 60 75 90 60 60 60 75 60 75 75 30
Pressure (mtorr) 2 2 2 2 2 2 5 10 2 10 2 2 2
Temperature (oC) 20 20 20 20 20 20 20 20 20 50 50 50 50
Spacers (mm) 100 100 100 100 100 100 100 100 100 100 100 30 100
Process time (s) 150 180 120 180 120 90 120 180 300 180 180 180 180
Etch rates (nm/min)
Averages 311 104 92 105 116 169 108 79 101 66 91 98 59
Std. Dev 44 15 15 21 22 9 11 31 29 4 28 18 12
Zep etch rate (nm/min)
30 40 51 67 45 59 53 36 19
Sidewall angle (degrees)
Averages 82 82 82 82 82 84 81 83 83 85 80 83 79
Std. Dev 2 2 1 1 1 1 1 2 2 1 3 2 2
CD loss (nm pr edge)
Averages 65 -11 -15 -2 -11 67 63 -29 -5 -29 10 -14 -17
Std. Dev 30 5 2 4 3 29 27 6 5 8 7 8 10
Bowing (nm)
Averages 31 31 15 6 5 22 12 15 28 13 25 1 -2
Std. Dev 6 7 3 6 4 5 2 6 9 7 5 2 2
Bottom curvature
Averages -9 -6 -9 -11 -9 9 -4 -8 -24 -2 -9 -13 -10
Std. Dev 22 19 19 11 7 17 15 15 12 15 13 17 18


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