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This page is written by Berit Herstrøm @ DTU Nanolab (BGHE) if nothing else is stated

SiO2 etching in the ICP metal

It is possible to etch SiO2 in the ICP metal etcher but it is not designed for it and we prefer that you do it elsewhere. It is a challenge to get a good selectivity to resist (typically in the range of 1:1 or worse) and it is probably not possible to get a profile angle of 90 degrees. More likely about 75-85 degrees. Different chemistries can be applied either based on CF4 or C4F8. If seems that C4F8 can give the best selectivity to resist (best case I have seem was 1:11 but it depends a lot on the process parameters)). If low coil power is needed CF4 chemistry is used because C4F8 needs a higher power to generate a plasma. /bghe 2016-04-25

Slow etch of SiO2 with resist as masking material - using a 6" carrier wafer with recess

This recipe can be used for slow etching of SiO2 with resist as masking material. Here are some test results presented.

Results	Test on wafer with 50% load (Travka 50), by BGHE @nanolab	100% load on 100mm wafers with Barc and KRF (no mask)
Etch rate of thermal oxide	44.1 nm/min (50% etch load) (01-02-2014)
Selectivity to resist [:1]	~0.9 (SiO2:resist)	~1.25:1 (Barc:KRF)
Etch rate in silicon	bghe@Nanolab 20190117 33.8 nm/min (middle of wafer with 80% load) bghe@Nanolab 20190117 34.3 nm/min (edge of wafer with 80% load)
Wafer uniformity (100mm)	±1.6% (01-02-2014)
Profile [o]	Take a look at the images but be aware that the resist profile was not good to begin with.
Wafer uniformity map (click on the image to view a larger image)	Contour plot of the etch rate over the wafer, 9 points measured
SEM profile images	Resist profile before etch Resist profiler after etch 01-02-2014. Resist profiler after etch 01-02-2014. No line width reduction observed.
Etch rate in barc		50 nm/min (2014-09-09)
Etch rate in KRF resist	40 nm/min (2014-09-09)

SiO2 etch using DUV mask

Two chemistry regimes has been explored: One using CF4 and one using C4F8

• CF4: bad selectivity to the resist mask.
• C4F8: Better selectivity to the resist mask can be achieved

• Tests done by Peixiong
• Tests done by Berit
• Test by Zhibo Li @nanolab dec. 2016 - based on the work of Peixiong and Berit: File:Zhibo Li SiO2 ICP etch (dose205).docx

Results	Test
Etch rate of thermal oxide	145-172 nm/min by bghe@nanolab (2015-06-02) 145 nm/min by Martin Lind Ommen (fall 2016)
Selectivity to resist [:1]	4-5:1 (SiO2:resist) by bghe@nanolab (2015-06-02)
Cr etch rate	1.6 nm/min (1:90 to SiO2) by Martin Lind Ommen (fall 2016)
Profile [o]	86-87 dg by bghe@nanolab (2015-06-02)
Wafer uniformity map (click on the image to view a larger image)
SEM profile images	by bghe@nanolab (2015-06-02)
Etch rate in barc
Etch rate in KRF resist	34 nm/min by bghe@nanolab (2015-06-02)
Comments	Sample: s007592 by bghe@nanolab (2015-06-02) See Martin Lind Ommen's results with hard masks: [1] There were problems with polymer on the surface after etching.

SiO2 etch nLOF

SiO2 etch with e-beam resist

  px1283lablejan1542014t1  250uc
   at 40mm x y 
  pxline400p1000jan142014dt2
  y=    -40    -45   -50   -55mm
  dose   200   240   280   320uc