PECVD Recipes: Difference between revisions

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{{recipes|Vacuum Deposition}}
{{recipes|Vacuum Deposition}}

=[[PECVD 1 (PlasmaTherm 790)]]=
=[[PECVD 1 (PlasmaTherm 790)]]=
*[https://docs.google.com/spreadsheets/d/1a0XrY6HuJ6L9niThZYI-u4XH69Hnbe3jkm1qKmrR8Rg/edit#gid=sharing Particulates (Gain4) in PECVD#1 2015]
*[https://docs.google.com/spreadsheets/d/1ZfkspbCQZmdThC8qB4XyjsyPAzrMF1QbHSMFmH6xSo4/edit#gid=sharing Particulates (Gain4) in PECVD#1 2016]
*[https://docs.google.com/spreadsheets/d/1YNiof68Veeh08s_NtG5aCWUXW7GWDDU00HAimV_l8_g/edit#gid=sharing Particulates (Gain4) in PECVD#1 2017]
*[https://docs.google.com/spreadsheets/d/1VN551M2oXGWX306HDLQXvZIp3kgxEvWffQqMqnc8ISk/edit#gid=sharing Particulates (Gain4 and Gain2) in PECVD#1 films 2017]
== SiN deposition (PECVD #1) ==
*[[media:New PECVD1-SiO2-standard recipe 2014 SiO2 standard recipe.pdf|SiN Standard Recipe]]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dEN6LV93LXlnbUhIWU1adVZWMWlXYnc&usp=drive_web#gid=sharing SiN 100nm Data 2014]
*[https://docs.google.com/spreadsheets/d/1phx1WficlUEg0xSahaAq4zrRk6m9Eb0ausO8wcAmXqs/edit#gid=sharing SiN 100nm Data 2015]
*[https://docs.google.com/spreadsheets/d/1VNSNTqnbE4SFk0HyhBAy3GJzi0jRQEs8cgk1v2_Uam8/edit#gid=sharing SiN 100nm Data 2016]
*[https://docs.google.com/spreadsheets/d/1TG1X2wpl2fWaHEtAHtpZFBVSCk1BQeGJQ8LA2M2qBJ0/edit#gid=sharing SiN 100nm Data 2017]
*[https://docs.google.com/spreadsheets/d/1UlyvPcXUBQ5R2JwjKOjELvtCJaTElVhJHfzgjyaRd2A/edit#gid=sharing SiN 300nm Data 2017]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dElmTXZyOEZsOFdrMVhNLWpKXzVmNWc&usp=sharing SiN 100 nm Thickness uniformity 2014]
*[https://docs.google.com/spreadsheets/d/1-pET1Eojooso5UHk90W-5uYByDDdrCyRnggqewxTmVg/edit#gid=sharing SiN 100 nm Thickness uniformity 2015]
*[https://docs.google.com/spreadsheets/d/1V_-KzsdR-2tSnJGtUdQWokmnNIY949t0vdQOp7RfCgc/edit#gid=sharing SiN 100 nm Thickness uniformity 2016]
*[https://docs.google.com/spreadsheets/d/1tM-a4VBEqpxr2G8PGGLTbsR6BQBmvqXNRBw0mikAUS0/edit#gid=sharing SiN 100 nm Thickness uniformity 2017]
*[https://docs.google.com/spreadsheets/d/1Z83RCH5cAUfViO6vv6hAatcLVWZ95ex4nDdfffm9I7s/edit#gid=sharing SiN 300nm Thickness uniformity 2017]


===[https://docs.google.com/spreadsheets/d/1fTDNXxpf4tgNYLIEs_jvehG1KvtXqqTRDBI7sHNAVvo/edit#gid=1270764394 PECVD 1 Process Control Plots] - Plots of all process control data===
== SiO<sub>2</sub> deposition (PECVD #1) ==
*[[media:New PECVD1-SiN-standard recipe 2014 SiN standard recipe.pdf|SiO<sub>2</sub> Standard Recipe]]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dEw0bjFEdTF2SUhRa25Ca0d0SzBha3c&usp=drive_web#gid=sharing SiO<sub>2</sub> 100nm Data 2014]
*[https://docs.google.com/spreadsheets/d/1JWNUcH8l90xif-0BhYKJee9nXxE4hnvvp6N2NtZLYXY/edit#gid=sharing SiO<sub>2</sub> 100nm Data 2015]
*[https://docs.google.com/spreadsheets/d/1F2pfsVnbUgaE9tsm8HZMlY6cyt-nhui0IpvGc6udhDU/edit#gid=sharing SiO<sub>2</sub> 100nm Data 2016]
*[https://docs.google.com/spreadsheets/d/1MblK5Zr5Skfw0s9Hdhqr_cCwN-nCgM-ofZnsAyvVRq8/edit#gid=sharing SiO<sub>2</sub> 100nm Data 2017]
*[https://docs.google.com/spreadsheets/d/1UlyvPcXUBQ5R2JwjKOjELvtCJaTElVhJHfzgjyaRd2A/edit#gid=sharing SiO<sub>2</sub> 300nm Data 2017]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dDQ3VEtZQVRpdVdlbGtIZHpTNmFzNmc&usp=drive_web#gid=sharing SiO<sub>2</sub> 100nm Thickness uniformity 2014]
*[https://docs.google.com/spreadsheets/d/1NQy-ADou6f2NBU-9jZG8KME1lOz0X5mh6HZV9_jPGes/edit#gid=sharing SiO<sub>2</sub> 100 nm Thickness uniformity 2015]
*[https://docs.google.com/spreadsheets/d/1WUCm_dWpxKTjfFf1rNfLuxvwMxsyCYON_OZ3gb50L_s/edit#gid=sharing SiO<sub>2</sub> 100 nmThickness uniformity 2016]
*[https://docs.google.com/spreadsheets/d/1dpC_AkPD-etIH6fVuQqLfd4UMNQCEtcqhvmBpwbEncE/edit#gid=sharing SiO<sub>2</sub> 100nm Thickness uniformity 2017]
*[https://docs.google.com/spreadsheets/d/1Fa8mZIBIeJwvCwUbJ-28VcvVYj8rshhuDuXsYxA-cD8/edit#gid=sharing SiO<sub>2</sub> 300nm Thickness uniformity 2017]


== OTHER recipes: Low-Stress (LS) SiN and SiO<sub>x</sub>N<sub>y</sub> deposition (PECVD #1) ==
==SiO<sub>2</sub> deposition (PECVD #1)==
<!-- Placeholders - Not uploaded yet-->
*[[media:New PECVD1-LS SIN-Turner05recipe 2014 LS SIN recipe.pdf|LS SiN Standard Recipe]]
*[https://docs.google.com/spreadsheets/d/1Joz0az9TGZWQc4CiMQJZzLBbNFbx_hH2Oc0B4NNJmYk/edit#gid=sharing LS SiN Data 2014]
*[https://docs.google.com/spreadsheets/d/1xIzc2CufRYNSfAtsOXpw3IzHreeu42BWrLBV0kzP6kA/edit#gid=sharing LS SiN 1000A Thickness uniformity 2014]
*[[media:New PECVD1-LS SION-recipe 2014 LS SION recipe.pdf|SiO<sub>x</sub>N<sub>y</sub> Standard Recipe]]
*[https://docs.google.com/spreadsheets/d/1rixyzAAq6q08M5OwvZiDVoh3K8B566XKM-UZAQIAnsg/edit#gid=sharing SiO<sub>x</sub>N<sub>y</sub> Data 2014]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dEttR2JSTkRoamR0SUZ4bE5QUW9uS2c&usp=sharing SiO<sub>x</sub>N<sub>y</sub>1000A Thickness uniformity 2014]


*[https://docs.google.com/spreadsheets/d/1wloq6HJw5RQIvmeKcBn3xvE_917R6jF_K-btCHjsiIM/edit#gid= SiO<sub>2</sub><nowiki> [PECVD 1] Standard Recipe</nowiki>]
=[[PECVD 2 (Advanced Vacuum)]]=
*[https://docs.google.com/spreadsheets/d/1kj0SWxRpnPRoGld8k3sW-3yK1iPm3buTkvlJSN5YPV4/edit#gid=sharing Particulates (Gain4) in PECVD#2 2015]
*[https://docs.google.com/spreadsheets/d/1xpk9tJrE68NIJ_1yIym0xBxd4fnzHHBHdkhFehruO3E/edit#gid=sharing Particulates (Gain4) in PECVD#2 2016]
*[https://docs.google.com/spreadsheets/d/1ICgt-fgTvNPbE_65x5jUsqy8JjHVv5WUvmE7g7VUbsI/edit#gid=sharing Particulates (Gain4) in PECVD#2 2017]
*[https://docs.google.com/spreadsheets/d/1yPAPP24z3RcRRi-HqEp3GJN4JM8Ec8SFJwZ-OYGG2HU/edit#gid=sharing Particulates (Gain4 and Gain2) in PECVD#2 films 2017]
== SiO<sub>2</sub> deposition (PECVD #2) ==
*[[media:New Adv PECVD OXIDE 300C standard recipe OXIDE Standard Recipe.pdf|Oxide Standard Recipe]]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dGJZaGtDTVRqa1BRdW5iU1N1Y01jd0E&usp=drive_web#gid=sharing Oxide Data 2014]
*[https://docs.google.com/spreadsheets/d/1d5boeJRWWgMqvQe6nVM7m8s3KAcS4Yp2L5CEU9svkX4/edit#gid=sharing Oxide Data 2015]
*[https://docs.google.com/spreadsheets/d/1XQRcTJdw9AIMPAUsH0n9Ic9Fe1_xGDSvAxD4gVc9FBw/edit#gid=sharing Oxide data 2016]
*[https://docs.google.com/spreadsheets/d/1vcaHwraMGNHuRxgWwGp78EJf4T3Jk182wxoCz_neuck/edit#gid=sharing Oxide Data 2017]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dDRjSHEtYUZRUTg4azE2U0JGUTg2M1E#gid=sharing Oxide Thickness Uniformity 2014]
*[https://docs.google.com/spreadsheets/d/16pZHcGwesXB1mMPwntOudBIlPvRh6A6DI37DEwyYfPw/edit#gid=sharing Oxide Thickness Uniformity 2015]
*[https://docs.google.com/spreadsheets/d/10OEuANVNmHqWvx-92zibechIrHK5kgqSK4B_O_O3-YI/edit#gid=sharing Oxide Thickness Uniformity 2016]
*[https://docs.google.com/spreadsheets/d/19JjJYdFNFzO685Hp9hODVRFAYF5bP3IEYGTRGQjqLN4/edit#gid=sharing Oxide Thickness Uniformity 2017]


*[https://docs.google.com/spreadsheets/d/1fTDNXxpf4tgNYLIEs_jvehG1KvtXqqTRDBI7sHNAVvo/edit#gid=0 SiO<sub>2</sub><nowiki> [PECVD 1] Current Process Control Data</nowiki>]
== SiN deposition (PECVD #2) ==
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiO2_deposition_.28PECVD_.231.29 SiO<sub>2</sub><nowiki> [PECVD 1] Historical Data</nowiki>] - Oct. 2021 and earlier
*[[media:New Adv PECVD-Nitride2 300C standard recipe Nitride2 Standard Recipe.pdf|Nitride2 Standard Recipe]]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dDE0R3FlenNPa2txNmRldTczMXZNNnc#gid=sharing Nitride2 Data 2014]
*[https://docs.google.com/spreadsheets/d/1SkYqOwgjUyMaFBPhuTjMvBTXu0KdQFNmITryF_OVi8o/edit#gid=sharing Nitride2 Data 2015]
*[https://docs.google.com/spreadsheets/d/1HJszgZyEZR9ZsiJpQM6pdsoQ6pWwI6brXasdmfDRoBQ/edit#gid=sharing Nitride2 Data 2016]
*[https://docs.google.com/spreadsheets/d/1f3JBEnr7lf0yIMlzlOYKv_bXlIDyXt8vec_rSVJIoOk/edit#gid=sharing Nitride2 Data 2017]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dERkYm85bGtYQVpjVk5GTGJuMkg2anc&usp=drive_web#gid=sharing Nitride2 Thickness Uniformity 2014]
*[https://docs.google.com/spreadsheets/d/14_dYQu3z31fF_oxsUUX8BmDucgv6B07xB3_zqP0HmvM/edit#gid=sharing Nitride2 Thickness Uniformity 2015]
*[https://docs.google.com/spreadsheets/d/1qBHs7uALM2OdE-yXOq4uZk6aUQEjZRjG1C6RcMEf0sk/edit#gid=sharing Nitride2 Thickness Uniformity 2016]
*[https://docs.google.com/spreadsheets/d/1WJcYzHUjLrWpys_i-Q96FN_lBDBufpXZKZVEX_gri_Q/edit#gid=sharing Nitride2 Thickness Uniformity 2017]
*[[media:SiNx_Films_by_PECVD2.pdf|SiNx Film Stress vs LF and HF Duration Time, and Gas Flowing-rate]]


==Low-Stress SiN deposition (PECVD #2) ==
==SiN deposition (PECVD #1)==
Low-Stress SilIcon Nitride (< 100 MPa)
*[[media:New AdvPECVD-LS Nitride2 300C standard recipe LS Nitride2 standard recipe.pdf|LS Nitride2 Standard Recipe]]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dEZvWVhzS1pHUXZkOGcyQWZ4LTNBWGc&usp=drive_web#gid=sharing LS Nitride2 Data 2014]
*[https://docs.google.com/spreadsheets/d/16Q6BrPoNiFP0elVoSGwXRfQdHXzAXOgiyqKmEw-4kII/edit#gid=sharing LS Nitride2 Data 2015]
*[https://docs.google.com/spreadsheets/d/1GZ58eFzD-T8DJ2Nsaj74u6cvawzsOI2DmMit6Z7vqys/edit#gid=sharing LS Nitride2 Data 2016]
*[https://docs.google.com/spreadsheets/d/1gGIWqkCnykPgBc3prhXExT7QcNjWm2HdbTtwugNqm18/edit#gid=sharing LS Nitride2 Data 2017]


*[https://docs.google.com/spreadsheets/d/1vwpDtiglR2DLWiYNhpBX77cyyj9lw55iVeFz1puN7bM/edit#gid= sharing LS Nitride2 Data 2018]
*[https://docs.google.com/spreadsheets/d/1DGU745SeunYz4sLs1LpGKbtOYX-tQyBHEvVYcMxHRKE/edit#gid= Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 1] Standard Recipe</nowiki>]
*[https://docs.google.com/spreadsheets/d/1fTDNXxpf4tgNYLIEs_jvehG1KvtXqqTRDBI7sHNAVvo/edit#gid=98787450 Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 1] Current Process Control Data</nowiki>]
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dENSak1ZNnVaVTFEQTBzdDJMSDlDTFE&usp=drive_web#gid=1=sharing LS Nitride2 Thickness Uniformity 2014]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiN_deposition_.28PECVD_.231.29 Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 1] Historical Data</nowiki>] - Oct. 2021 and earlier
*[https://docs.google.com/spreadsheets/d/1LpkaOpr7oNoyvxFkineD7i9FspO6LweJMulvZHJM5Zc/edit#gid=sharing LS Nitride2 Thickness Uniformity 2015]
*[https://docs.google.com/spreadsheets/d/1FRzW9BaIPF2D3cxPgjLq8hbvrBHXDNkiW6DiPVKQBRM/edit#gid=sharing LS Nitride2 Thickness Uniformity 2016]
*[https://docs.google.com/spreadsheets/d/1vyrgvdEZFgnQUilpa5Ka2nOfowY8zlmJfbQ77EamNBg/edit#gid=sharing LS Nitride2 Thickness Uniformity 2017]


==Low Stress Si<sub>3</sub>N<sub>4</sub> (PECVD#1)==


*[https://wiki.nanotech.ucsb.edu/wiki/images/4/4a/New_PECVD1-LS_SIN-Turner05recipe_2014_LS_SIN_recipe.pdf Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 1] Standard Recipe</nowiki>]
== Amorphous-Si deposition (PECVD #2) ==
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#Low-Stress_SiN_-_LS-SiN_.28PECVD.231.29 Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 1] Historical Data</nowiki>] - 2021-10 and earlier
*[[media:03-Amorphous-Si-PECVD-2.pdf|Amorphous Si Deposition Recipe]]
*[[media:ASi_deposition_and_film_stress_using_AV_dep_tool.pdf|Amorphous Si Films and Their Stress]]


:[[File:PECVD1 SiN Stress vs. N2 plot.jpg|alt=plot of SiN stress and Refractive Index vs. N2 flow. |none|thumb|414x414px|Example of Si<sub>3</sub>N<sub>4</sub> modified stress via. varying N<sub>2</sub> flow.  Refractive index is relatively constant (one outlier), and stress varies continuously from tensile to compressive.  ([[Demis D. John]] 2011, [https://engineering.ucsb.edu/people/daniel-blumenthal Blumenthal Group])]]
= [[ICP-PECVD (Unaxis VLR)]] =
==SiN deposition (Unaxis VLR) ==
=== SiN (2% SiH<sub>4</sub>) ===
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|- bgcolor="#D0E7FF"
! width="350" align="center" |50° (pinholes)
! width="350" align="center" |100° (pinholes)
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiN-Recipe-5W-50C-High-Stress.pdf|SiN Deposition Recipe (5W 50° High Stress)]]
*[[Media:PECVD2-SiN-Recipe-50W-50C-Medium-Stress.pdf|SiN Deposition Recipe (50W 50° Medium Stress)]]
*[[Media:PECVD2-SiN-Recipe-120W-50C-Low-Stress.pdf|SiN Deposition Recipe (120W 50° Low Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-5W-100C-High-Stress.pdf|SiN Deposition Recipe (5W 100° High Stress)]]
*[[Media:PECVD2-SiN-Recipe-50W-100C-Medium-Stress.pdf|SiN Deposition Recipe (50W 100° Medium Stress)]]
*[[Media:PECVD2-SiN-Recipe-120W-100C-Low-Stress.pdf|SiN Deposition Recipe (120W 100° Low Stress)]]
*[[Media:PECVD2-SiNx-l.s.-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (120W 100° Low Stress)]]
*[[Media:PECVD2-SiNx-medium-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (50W 100° Medium Stress)]]
*[[Media:PECVD2-SiNx -h.s.-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (5W 100° High Stress)]]
*[[Media:PECVD2-SiNx-medium stress-SEM-2% SiH4-100C-50W.pdf|SiNx SEM images (50W 100° Medium Stress)]]
*[[Media:PECVD2-SiNx-high stress-SEM-2% SiH4-100C-5W.pdf|SiNx SEM images (5W 100° High Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-5W-250C-High-Stress.pdf|SiN Deposition Recipe (5W 250° High Stress)]]
*[[Media:PECVD2-SiN-Recipe-50W-250C-Medium-Stress.pdf|SiN Deposition Recipe (50W 250° Medium Stress)]]
*[[Media:PECVD2-SiN-Recipe-120W-250C-Low-Stress.pdf|SiN Deposition Recipe (120W 250° Low Stress)]]
*[[Media:PECVD2-SiNx-l.s.-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (120W 250° Low Stress)]]
*[[Media:PECVD2-SiNx-medium-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (50W 250° Medium Stress)]]
*[[Media:PECVD2-SiNx -h.s.-Comparison table-2% SiH4-100C-120W.pdf|Comparison Table SiNx (5W 250° High Stress)]]
*[[Media:28-Very-low-pin-hole-density_SiNx_film_at_300_C.pdf|Very-Low-Pin-Hole-Density SiNx Recipe(25W 300°)]]
|-
|}


=== SiN (2% SiH<sub>4</sub> - No-Ar) ===
==SiO<sub>x</sub>N<sub>y</sub> deposition (PECVD #1)==
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|- bgcolor="#D0E7FF"
! width="350" align="center" |50° (pinholes)
! width="350" align="center" |100° (pinholes)
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiN-Recipe-NoAr-5W-50C-High-Stress.pdf|SiN Deposition Recipe - No Ar (5W 50° High Stress)]]
*[[Media:41-High-stress_SiNx_at_50_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of High-stress SiN<sub>x</sub> (No Ar, 5W, 50°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-50W-50C-Medium-Stress.pdf|SiN Deposition Recipe - No Ar (50W 50° Medium Stress)]]
*[[Media:36-Medium-stress_SiNx_using_Unaxis_ICP_deposition_tool-a.pdf|Film Properties of Medium-stress SiN<sub>x</sub> (No Ar, 50W, 50°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-120W-50C-Low-Stress.pdf|SiN Deposition Recipe - No Ar (120W 50° Low Stress)]]
*[[Media:40-Low-stress_SiNx_at_50_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of Low-stress SiN<sub>x</sub> (No Ar, 120W, 50°)]]
|
*[[Media:PECVD2-SiN-Recipe-NoAr-5W-100C-High-Stress.pdf|SiN Deposition Recipe - No Ar (5W 100° High Stress)]]
*[[Media:38-High-stress_SiNx_at_100_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of high-stress SiN<sub>x</sub> (No Ar, 5W, 100°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-50W-100C-Medium-Stress.pdf|SiN Deposition Recipe - No Ar (50W 100° Medium Stress)]]
*[[Media:39-Medium-stress_SiNx_at_100C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of Medium-stress SiN<sub>x</sub> (No Ar, 50W, 100°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-120W-100C-Low-Stress.pdf|SiN Deposition Recipe - No Ar (120W 100° Low Stress)]]
*[[Media:37-Low-stress_SiNx_at_100_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of Low-stress SiN<sub>x</sub> (No Ar, 120W, 100°)]]
|
*[[Media:PECVD2-SiN-Recipe-NoAr-5W-250C-High-Stress.pdf|SiN Deposition Recipe - No Ar (5W 250° High Stress)]]
*[[Media:34-High-stress_SiNx_at_250_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of High-stress SiN<sub>x</sub> (No Ar, 5W, 250°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-50W-250C-Medium-Stress.pdf|SiN Deposition Recipe - No Ar (50W 250° Medium Stress)]]
*[[Media:36-Medium-stress_SiNx_using_Unaxis_ICP_deposition_tool-a.pdf|Film Properties of Medium-stress SiN<sub>x</sub> (No Ar, 50W, 250°)]]
*[[Media:PECVD2-SiN-Recipe-NoAr-120W-250C-Low-Stress.pdf|SiN Deposition Recipe - No Ar (120W 250° Low Stress)]]
*[[Media:35-Low-stress_SiNx_at_250_C_using_Unaxis_ICP_deposition_tool.pdf|Film Properties of Low-stress SiN<sub>x</sub> (No Ar, 120W, 250°)]]
|-
|}


*[https://wiki.nanotech.ucsb.edu/wiki/images/2/24/New_PECVD1-LS_SION-recipe_2014_LS_SION_recipe.pdf SiO<sub>x</sub>N<sub>y</sub> Standard Recipe]
=== SiN (2% SiH<sub>4</sub> - No-Ar - Extra N<sub>2</sub>) ===
*[https://docs.google.com/spreadsheets/d/1rixyzAAq6q08M5OwvZiDVoh3K8B566XKM-UZAQIAnsg/edit#gid=sharing SiO<sub>x</sub>N<sub>y</sub> Data 2014] - ''Rate, Index etc.''
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
*[https://docs.google.com/spreadsheet/ccc?key=0AnwBU1s4JQo2dEttR2JSTkRoamR0SUZ4bE5QUW9uS2c&usp=sharing SiO<sub>x</sub>N<sub>y</sub>1000A Thickness uniformity 2014]
|- bgcolor="#D0E7FF"
! width="350" align="center" |50° (pinholes)
! width="350" align="center" |100° (pinholes)
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiN-Recipe-NoAr-ExtraN2-120W-50C-Low-Stress.pdf|SiN Deposition Recipe - No Ar Extra N<sub>2</sub> (120W 50° Low Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-NoAr-ExtraN2-120W-100C-Low-Stress.pdf|SiN Deposition Recipe - No Ar Extra N<sub>2</sub> (120W 100° Low Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-NoAr-ExtraN2-120W-250C-Low-Stress.pdf|SiN Deposition Recipe - No Ar Extra N<sub>2</sub> (120W 250° Low Stress)]]
|-
|}


==Standard Cleaning Procedure (PECVD #1)==
=== SiN (100% SiH<sub>4</sub> ) ===
The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|- bgcolor="#D0E7FF"
! width="350" align="center" |50° (pinholes)
! width="350" align="center" |100° (pinholes)
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiN-Recipe-Low stress SiNx-100%SiH4-120W-50C.pdf|SiN Deposition Recipe (120W 50° Low Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-Low stres SiNx-100% SiH4-120W-100C.pdf|SiN Deposition Recipe (120W 100° Low Stress)]]
*[[Media:PECVD2-SiN-Table-Low stres SiNx-100% SiH4-120W-100C.pdf|SiN Comparison Table 120W-100(250)C]]
|
*[[Media:PECVD2-SiN-Recipe-Low stress SiNx-100% SiH4-120W-250C.pdf|SiN Deposition Recipe (120W 250° Low Stress)]]
*[[Media:PECVD2-SiN-Table-Low stres SiNx-100% SiH4-120W-100C.pdf|SiN Comparison Table 120W, 100(250)C]]
|- align="left"
|
*[[Media:PECVD2-SiN-Recipe-Medium stress SiNx-100%SiH4-120W-50C.pdf|SiN Deposition Recipe (50W 50° Medium Stress)]]
|
*[[Media:PECVD2-SiN-Recipe-Medium stres SiNx-100% SiH4-120W-100C.pdf|SiN Deposition Recipe (50W 100° Medium Stress)]]
*[[Media:PECVD2-SiN-Table-Low stres SiNx-100% SiH4-120W-100C.pdf|SiN Comparison Table 50W, 100(250)C]]
*[[Media:27-SiNx_Film_(Bias%3D50W)_Sidewall_Coverage.pdf|SiN SEM sidewall coverage]]
|
*[[Media:PECVD2-SiN-Recipe-Medium stress SiNx-100% SiH4-120W-250C.pdf|SiN Deposition Recipe (50W 250° Medium Stress)]]
*[[Media:PECVD2-SiN-Table-Low stres SiNx-100% SiH4-120W-100C.pdf|SiN ComparisonTable 50W, 100(250)C]]
|-
|}


#Wet cleaning (start cleaning by using a cleanroom wipe sprayed with DI. Wipe chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA. )
==SiO<sub>2</sub> deposition (Unaxis VLR) ==
#Load the recipe for cleaning "CF4/O2 Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding a required time for cleaning.
=== SiO<sub>2</sub> (2% SiH<sub>4</sub>) ===
#
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|- bgcolor="#D0E7FF"
! width="350" align="center" |50°
! width="350" align="center" |100°
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiO2Recipe-5W-50C.pdf|SiO<sub>2</sub> Deposition Recipe (5W 50°)]]
|
*[[Media:PECVD2-SiO2Recipe-5W-100C.pdf|SiO<sub>2</sub> Deposition Recipe (5W 100°)]]
*[[Media:SiO2 film Unaxis ICP vs PECVD I.pdf|SiO<sub>2</sub> film Unaxis ICP vs PECVD I]]
*[[Media:SEM pictures SiO2 100C.pdf|SiO<sub>2</sub> SEM pictures 100C]]
|
*[[Media:PECVD2-SiO2Recipe-5W-250C.pdf|SiO<sub>2</sub> Deposition Recipe (5W 250°)]]
*[[Media:SiO2 film Unaxis ICP vs PECVD I.pdf|SiO<sub>2</sub> film Unaxis ICP vs PECVD I]]
|-
|}


{| class="wikitable"
=== SiO<sub>2</sub> (2% SiH<sub>4</sub> - No Ar) ===
|+Table of Cleaning Times
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
!Film Dep'd
|- bgcolor="#D0E7FF"
!Cleaning Time
! width="350" align="center" |50°
! width="350" align="center" |100°
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiO2-Recipe-NoAr-50C.pdf|SiO<sub>2</sub> Deposition Recipe - No Ar (50°)]]
*[[Media:29-UnaxisPM3-SiO2-SiH4-O2-He.pdf|SiO<sub>2</sub> Film Properties-No Ar]]
|
*[[Media:PECVD2-SiO2-Recipe-NoAr-100C.pdf|SiO<sub>2</sub> Deposition Recipe - No Ar (100°)]]
*[[Media:29-UnaxisPM3-SiO2-SiH4-O2-He.pdf|SiO<sub>2</sub> Film Properties-No Ar]]
|
*[[Media:PECVD2-SiO2-Recipe-NoAr-250C.pdf|SiO<sub>2</sub> Deposition Recipe - No Ar (250°)]]
*[[Media:29-UnaxisPM3-SiO2-SiH4-O2-He.pdf|SiO<sub>2</sub> Film Properties-No Ar]]
|-
|-
|SiO<sub>2</sub>
|}
|TBD

|-
=== SiO<sub>2</sub> (100% SiH<sub>4</sub> HDR) ===
|Si<sub>3</sub>N<sub>4</sub>
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|TBD
|- bgcolor="#D0E7FF"
! width="350" align="center" |50°
! width="350" align="center" |100°
! width="350" align="center" |250°
|- align="left"
|
*[[Media:SiO2 100% SiH4 HDR 50C.pdf|SiO<sub>2</sub> Deposition Recipe - HDR (50°)]]
|
*[[Media:PECVD2-SiO2-Recipe-100%SiH4-HDR-100C.pdf|SiO<sub>2</sub> Deposition Recipe - HDR (100°)]]
*[[Media:PECVD2-SiO2-HDR-100% SiH4.pdf|SiO<sub>2</sub> Comparison Table - HDR (100°)]]
|
*[[Media:PECVD2-SiO2-Recipe-100%SiH4-HDR-250C.pdf|SiO<sub>2</sub> Deposition Recipe - HDR (250°)]]
*[[Media:PECVD2-SiO2-HDR-100% SiH4.pdf|SiO<sub>2</sub> Comparison Table - HDR (250°)]]
|-
|-
|SiOxNy
|Same as XYZ
|}
|}


#
=== SiO<sub>2</sub> (100% SiH<sub>4</sub> LDR) ===
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"
|- bgcolor="#D0E7FF"
! width="350" align="center" |50°
! width="350" align="center" |100°
! width="350" align="center" |250°
|- align="left"
|
*[[Media:PECVD2-SiO2-Recipe-100%SiH4-LDR-50C.pdf|SiO<sub>2</sub> Deposition Recipe - LDR (50°)]]
|
*[[Media:PECVD2-SiO2-Recipe-100%SiH4-LDR-100C.pdf|SiO<sub>2</sub> Deposition Recipe - LDR (100°)]]
*[[Media:PECVD2-SiO2-LDR-100% SiH4.pdf|SiO<sub>2</sub> Comparison Table - LDR (100°)]]
*[[Media:PECVD2-SiO2-SEM-LDR SiO2-100% SiH4-100C-15W.pdf|SiO<sub>2</sub> SEM sidewall coverage]]
|
*[[Media:PECVD2-SiO2-Recipe-100%SiH4-LDR-250C.pdf|SiO<sub>2</sub> Deposition Recipe - LDR (250°)]]
*[[Media:PECVD2-SiO2-LDR-100% SiH4.pdf|SiO<sub>2</sub> Comparison Table - LDR (250°)]]
|-
|}


===[https://wiki.nanotech.ucsb.edu/w/images/7/72/PECVD1-cleaning.png Standard Cleaning Recipe (PECVD#1): "CF4/O2 Clean"]===
=== Amorphous Si (100%SiH<sub>4</sub> Ar He) ===
Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that '''it will pop up a window for the cleaning time''' upon running the recipe - you do not need to edit the recipe before running it.
{| class="wikitable" border="1" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;"

|- bgcolor="#D0E7FF"
=[[PECVD 2 (Advanced Vacuum)]]=
! width="350" align="center" |90°

! width="350" align="center" |250°
===[https://docs.google.com/spreadsheets/d/1iSW1eAAg824y9PYYLG9aiaw53PEJ-f9ofylpVlCDq9Y/edit#gid=272916741 PECVD 2 Process Control Plots] - Plots of all process control data===
|- align="left"

|
==SiO<sub>2</sub> deposition (PECVD #2)==
*[[Media:02-ICP-PECVD-a-Si_Film-90C.pdf|a-Si Deposition Recipe - 90°]]

|
*[https://docs.google.com/spreadsheets/d/1cYK-k669vf8YO2q2YCGa3gTdaDI3I3M-a9KR5RDlZWY/edit#gid= SiO<sub>2</sub><nowiki> [PECVD 2] New Standard Recipe</nowiki>] - "''STD SiO2 v2''"
*[[Media:01-ICP-PECVD-a-Si-Deposition_Recipe-250C.pdf|a-Si Deposition Recipe - 250°]]
*[https://docs.google.com/spreadsheets/d/1wCEcFj6ZMHR4QifngLXwz6dqbyf8hsVKu7bQbMS6EoA/edit#gid= SiO<sub>2</sub><nowiki> [PECVD 2] Old Standard Recipe</nowiki>] - "''STD SiO2''"
*[[Media:Amorphous_Silicon_Film_Deposition_using_12.5W_bias_on_SiO2-Si.pdf|Thick, Defects-free a-Si Film on SiO<sub>2</sub>/Si with a Lower Bias Power]]
*[https://docs.google.com/spreadsheets/d/1iSW1eAAg824y9PYYLG9aiaw53PEJ-f9ofylpVlCDq9Y/edit#gid=1313651154 SiO<sub>2</sub><nowiki> [PECVD 2] Current Process Control Data</nowiki>]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiO2_deposition_.28PECVD_.232.29 SiO<sub>2</sub><nowiki> [PECVD 2] Historical Data</nowiki>] - Before Oct. 2021

==SiN deposition (PECVD #2)==

*[https://docs.google.com/spreadsheets/d/1JBXEfRGemFJK81RkHfxS0cTucb3viUL7hMGzmKRD5uU/edit#gid= Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] New Standard Recipe</nowiki>] - "''STD Si3N4 v3''"
*[https://docs.google.com/spreadsheets/d/1KS4HfhUJyYVep4H6CRAKpMRP5TA31F0qD-obQkKRnEI/edit#gid= Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Old Standard Recipe</nowiki>] - "''Nitride2''"
*[https://docs.google.com/spreadsheets/d/1iSW1eAAg824y9PYYLG9aiaw53PEJ-f9ofylpVlCDq9Y/edit#gid=773875841 Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Current Process Control Data</nowiki>]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiN_deposition_.28PECVD_.232.29 Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Historical Data</nowiki>] - Before Oct. 2021

==Low-Stress SiN deposition (PECVD #2)==
''Low-Stress Silicon Nitride, Si<sub>3</sub>N<sub>4</sub> (< ±100 MPa)''

*[https://docs.google.com/spreadsheets/d/19VQ6ytYbZ5SsAiXzgWqwlyJUqgjWb8x_eyv7L8DvtwM/edit#gid= Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] New Standard Recipe</nowiki>] - "''STD LS-Si3N4 v4''"

*[https://docs.google.com/spreadsheets/d/1DzzI7aE61R7c6gyk6cGBdm9FtGrApiNJ4AL90ll2C8k/edit#gid= Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Old Standard Recipe</nowiki>] - "'' Old LSNitride2 recipe ''"

*[https://docs.google.com/spreadsheets/d/1iSW1eAAg824y9PYYLG9aiaw53PEJ-f9ofylpVlCDq9Y/edit#gid=584923738 Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Current Process Control Data</nowiki>]
*[https://docs.google.com/spreadsheets/d/1iSW1eAAg824y9PYYLG9aiaw53PEJ-f9ofylpVlCDq9Y/edit#gid=203400760 Plots of Low-Stress Si<sub>3</sub>N<sub>4</sub> Process Control Data]
*[[Old Deposition Data - 2021-12-15#Low-Stress SiN deposition .28PECVD .232.29|Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [PECVD 2] Historical Data - Before Oct. 2021</nowiki>]]
*:''Old Versions of the recipe:''
*:''[https://wiki.nanotech.ucsb.edu/wiki/images/a/a5/New_AdvPECVD-LS_Nitride2_300C_standard_recipe_LS_Nitride2_standard_recipe.pdf LS Nitride2 Standard Recipe 2014-5/9/2018]''
*:''[https://wiki.nanotech.ucsb.edu/wiki/images/0/01/STD_LSNitride2_5-9-18.pdf STD LSNitride2 5/9/2018]''

===Low-Stress SiN 3xTime (PECVD #2)===
''This Low-Stress SiN recipe is more stable over time (months), because each step is 3x longer (so each compressive/tensile layer is thicker), making it less susceptible to RF ignition delays as the grounding strap is etched over time. – 2024-09 [[Demis D. John|Demis]] & [[Biljana Stamenic|Biljana]]''

*Recipe: "''[https://docs.google.com/spreadsheets/d/1OQp_sux5YEgpcyH3sf0JCwTOhvoi_LSYKOUMRR4Umh4?usp=drive_fs STD LS-Si3N4 3xTime v1]"''
*[https://docs.google.com/spreadsheets/d/15aKkk-fIojIDgQfsVlB3lhex-U3Q0edVdNCkzoGBo1Q/edit?usp=sharing Process Control Data]: Calibration Data
*[https://docs.google.com/spreadsheets/d/15aKkk-fIojIDgQfsVlB3lhex-U3Q0edVdNCkzoGBo1Q/edit?gid=974005628#gid=974005628 Process Control Charts/Plots]: Calibration control limits versus date

==Amorphous-Si deposition (PECVD #2)==

*[https://wiki.nanotech.ucsb.edu/wiki/images/9/9d/03-Amorphous-Si-PECVD-2.pdf Amorphous Si Deposition Recipe]
*[https://wiki.nanotech.ucsb.edu/wiki/images/0/09/ASi_deposition_and_film_stress_using_AV_dep_tool.pdf Amorphous Si Film Characterization and Stress]

==Standard Cleaning Procedure (PECVD #2)==
The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:

#(If >29min dep time) Wet cleaning: Start cleaning by using a cleanroom wipe sprayed with DI. Wipe upper chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA & wiping again.
#Load the recipe for cleaning "STD CF<sub>4</sub>/O<sub>2</sub> Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding required time for cleaning.

===[https://wiki.nanotech.ucsb.edu/w/images/3/34/PECVD2_photo_for_cleaning.png Standard Clean Recipe (PECVD#2): "STD CF4/O2 Clean"]===
Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that it will pop up a window for the cleaning time upon running the recipe - you do not need to edit the recipe before running it.


'''Clean Times (PECVD#2''')
{| class="wikitable"
!Film Deposited
!Cleaning Time (Dry)
|-
|-
|SiO<sub>2</sub>
|1 min. clean for every 1 min. deposition
|-
|Si<sub>3</sub>N<sub>4</sub>
|1 min. clean for every 7 min of deposition
|-
|If > 29min total dep time
(Season + Dep)
|Wet Clean the Upper Lid/Chamber
DI water then Isopropyl Alcohol on chamber wall & portholes
|}
|}

=[[ICP-PECVD (Unaxis VLR)]]=
2020-02: New recipes have been characterized for low particulate count and repeatability. Only staff-supplied recipes are allowed in the tool. Please follow the [[ICP-PECVD (Unaxis VLR)#Documentation|new procedures]] to ensure low particle counts in the chamber.

The system currently has '''Deuterated Silane (SiD<sub>4</sub>)''' installed - identical to the regular Silicon precursor SiH<sub>4</sub>, except that it significantly lowers optical absorption in the near-infrared due to shifted molecular vibrations/molecular weights. This gas is more expensive and thus more applicable to optical application than to general-purpose SiN films.

==Process Control Data (Unaxis ICP-PECVD)==

*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=417334948https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=417334948 ICP-PECVD Process Control Plots] - ''Plots of all Process Control data''
*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=0 Low Deposition Rate SiO<sub>2</sub>]
*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1459210138 High Deposition Rate SiO<sub>2</sub>]
*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1670372499 Si<sub>3</sub>N<sub>4</sub>]
*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1517031044 Low Stress Si<sub>3</sub>N<sub>4</sub>]

==Low Deposition Rate SiO<sub>2</sub> [ICP-PECVD]==

*[https://docs.google.com/spreadsheets/d/17ft9jrHcCFCp2830RsLwQq5lHuupWATXT91SreG8WYY/edit#gid=143856038 Low Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiO2 LDR250C-until May 2024''"
*[https://docs.google.com/spreadsheets/d/1mobnAIH70a9eFbCkMnza2WfpI2uRUWtLlz0cLK1Ljuo/edit?gid=1554182668#gid=1554182668 Low Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiO2 LDR250C-after May 2024''"

**[https://docs.google.com/spreadsheets/d/1wocoCPOOEDQcZbXJJNaZs1sr9dXBZpn1wUyglL8IQrI/edit#gid=1199123007 Old Recipe] -

*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=0 Low Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Process Control Data</nowiki>]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiO2_LDR_250C_Deposition_.28Unaxis_VLR.29 Low Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Historical Data</nowiki>] - before Oct. 2021

==High Deposition Rate SiO<sub>2</sub> [ICP-PECVD]==

*[https://docs.google.com/spreadsheets/d/13KUlUujEWSLOH54Ibd52YNJPZcAc7ELShI2RAqM6H-Y/edit#gid=117484667 High Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiO2 HDR250C-until May 2024''"
*[https://docs.google.com/spreadsheets/d/1x0mB4ySSUfEAfRehAx7k_k3BJuTMczaRxQgxsTAFfo4/edit?gid=744785272#gid=744785272 High Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiO2 HDR250C-after May 2024''"

**[https://docs.google.com/spreadsheets/d/1OxHi5r9ifNvF8ODpIk6aoRevb4RdbbykwPVMm1g-yi4/edit#gid=1199123007 Old Recipe]

*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1459210138 High Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Current Process Control Data</nowiki>]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiO2_HDR_250C_Deposition_.28Unaxis_VLR.29 High Deposition Rate SiO<sub>2</sub><nowiki> [ICP-PECVD] - Historical Data</nowiki>]

==Gap-Fill SiO<sub>2</sub> [ICP-PECVD]==
''Recipe designed by [https://scholar.google.com/citations?user=kur3-cEAAAAJ&hl=en&oi=ao Warren Jin], please consider our [https://wiki.nanotech.ucsb.edu/wiki/Frequently_Asked_Questions#Publications_acknowledging_the_Nanofab publication policy] if you publish using this recipe.''
'''NOTE:''' Please contact tool [[Tony Bosch|supervisor]] before running this recipe - this recipe must often be scheduled to prevent excessive chamber maintenance.
Able to effectively fill ~1:1 and ~1:2 aspect ratio gaps in Silicon and Glass structures (eg. waveguides/optical gratings) with void-free filling.

The recipe uses a high 400W RF Bias to reduce buildup on corners that causes voids during growth.

*Category = <code>SiO2 GapFill - Std.</code>
*FLOW: <code>SiO2 GapFill 250C</code>
**Will run the sequence <code>SiO2 GapFill 250C 450W</code>. Do not change this!
*STEP (edit TIME only): <code>SiO2 GapFill 250C</code>
*Deposition rate = 99.968nm/min [9/20/23]

==Si<sub>3</sub>N<sub>4</sub> [ICP-PECVD]==

*[https://docs.google.com/spreadsheets/d/1MffAE2S-Sga0o4botssPMi_P8C2ghxw4XiHwTnOn95Q/edit#gid=1111781219 Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiN 250C- until May 2024''"

*[https://docs.google.com/spreadsheets/d/18nE-iTLLH4QIq3wadHVgjVuZ215o9xUz_aCX2WDdges/edit?gid=638997025#gid=638997025 Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiN 250C-after May 2024''"

*[https://docs.google.com/spreadsheets/d/1VrgS0cB2OcdZVTCnDAesgQCLRaAgEB_Iajc_OrhXOo0/edit#gid=1199123007 Old Recipe]

*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1670372499 Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Current Process Control Data</nowiki>]
*[https://wiki.nanotech.ucsb.edu/wiki/Old_Deposition_Data_-_2021-12-15#SiN_250C_deposition_.28Unaxis_VLR.29 Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Historical Data</nowiki>] - before Oct. 2021

==Low Stress Si<sub>3</sub>N<sub>4</sub> [ICP-PECVD]==

*[https://docs.google.com/spreadsheets/d/1JuQlCU-mozIUJx9z9aQdisIJyFhv1r9AWI8EWeOnsPo/edit#gid=82816489 Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiN Low Stress 250C-until May 2024''"

* [https://docs.google.com/spreadsheets/d/1xchMuXlPABSKcW-rMau8B-cw_jnJnwI9qpXqDLUQ8sU/edit?gid=1239658204#gid=1239658204 Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Standard Recipe</nowiki>] - "''SiN Low Stress 250C-after May 2024''"

**[https://docs.google.com/spreadsheets/d/1i2mE2K12EEulnCbO9KuU9PCcvHAmcGxTIXUF8x4IOWk/edit#gid=1199123007 Old Recipe]

*[https://docs.google.com/spreadsheets/d/1CuDMKFTTzGLL6CP-FEI_9cOnUaIw-432ppDFssB59wY/edit#gid=1517031044 Low Stress Si<sub>3</sub>N<sub>4</sub><nowiki> [ICP-PECVD] - Current Process Control Data</nowiki>]

==Standard Seasoning Procedure [ICP-PECVD]==
You must edit the seasoning recipes (SiO2 Seasoning - Std, SiN seasoning - Std). You are allowed to change only seasoning time [time needed to coat chamber walls with ~200nm of film].
Seasoning recipes:
*[https://docs.google.com/spreadsheets/d/1S01xgtxFEJ4q7GLHfo-96yYKxer8nGlB/edit?gid=1944526099#gid=1944526099 SiO<sub>2</sub> seasoning - Std ]
*[https://docs.google.com/spreadsheets/d/1S3BFJIn9oAq2bxg6PDe9RY_6Fvkc36ki/edit?gid=1218243940#gid=1218243940 SiN seasoning - Std ]

==Standard Cleaning Procedure [ICP-PECVD]==
You must edit the Post-Dep Clean recipe to correspond to your deposited thickness and material. See the [[ICP-PECVD (Unaxis VLR)#Documentation|Operating Procedure on the Unaxis Tool Page]] for details.

*SiNx etches at 20nm/min
*SiO<sub>2</sub> etches at 40nm/min

===Standard Clean Recipe===

*[https://docs.google.com/spreadsheets/d/1S3DzvJJahNTwGXsn0GDyg2FiourGffiy/edit?gid=2021404224#gid=2021404224 Post Deposition Clean 250C ]

==General Recipe Notes (Unaxis VLR ICP-PECVD)==

*RF1 = Bias
*RF2 = ICP Power
*All recipes start with an Argon pre-clean with 0W bias (gentle), to improve adhesion/nucleation.
*Maximum SiO<sub>2</sub> Dep. thickness allowed: 800nm
**Above this thickness, you must run a chamber clean/season before depositing more onto your product wafer.

Latest revision as of 21:24, 30 September 2024

Back to Vacuum Deposition Recipes.

PECVD 1 (PlasmaTherm 790)

PECVD 1 Process Control Plots - Plots of all process control data

SiO2 deposition (PECVD #1)

SiN deposition (PECVD #1)

Low Stress Si3N4 (PECVD#1)

plot of SiN stress and Refractive Index vs. N2 flow.
Example of Si3N4 modified stress via. varying N2 flow.  Refractive index is relatively constant (one outlier), and stress varies continuously from tensile to compressive.  (Demis D. John 2011, Blumenthal Group)

SiOxNy deposition (PECVD #1)

Standard Cleaning Procedure (PECVD #1)

The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:

  1. Wet cleaning (start cleaning by using a cleanroom wipe sprayed with DI. Wipe chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA. )
  2. Load the recipe for cleaning "CF4/O2 Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding a required time for cleaning.
Table of Cleaning Times
Film Dep'd Cleaning Time
SiO2 TBD
Si3N4 TBD
SiOxNy Same as XYZ

Standard Cleaning Recipe (PECVD#1): "CF4/O2 Clean"

Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that it will pop up a window for the cleaning time upon running the recipe - you do not need to edit the recipe before running it.

PECVD 2 (Advanced Vacuum)

PECVD 2 Process Control Plots - Plots of all process control data

SiO2 deposition (PECVD #2)

SiN deposition (PECVD #2)

Low-Stress SiN deposition (PECVD #2)

Low-Stress Silicon Nitride, Si3N4 (< ±100 MPa)

Low-Stress SiN 3xTime (PECVD #2)

This Low-Stress SiN recipe is more stable over time (months), because each step is 3x longer (so each compressive/tensile layer is thicker), making it less susceptible to RF ignition delays as the grounding strap is etched over time. – 2024-09 Demis & Biljana

Amorphous-Si deposition (PECVD #2)

Standard Cleaning Procedure (PECVD #2)

The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:

  1. (If >29min dep time) Wet cleaning: Start cleaning by using a cleanroom wipe sprayed with DI. Wipe upper chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA & wiping again.
  2. Load the recipe for cleaning "STD CF4/O2 Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding required time for cleaning.

Standard Clean Recipe (PECVD#2): "STD CF4/O2 Clean"

Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that it will pop up a window for the cleaning time upon running the recipe - you do not need to edit the recipe before running it.


Clean Times (PECVD#2)

Film Deposited Cleaning Time (Dry)
SiO2 1 min. clean for every 1 min. deposition
Si3N4 1 min. clean for every 7 min of deposition
If > 29min total dep time

(Season + Dep)

Wet Clean the Upper Lid/Chamber

DI water then Isopropyl Alcohol on chamber wall & portholes

ICP-PECVD (Unaxis VLR)

2020-02: New recipes have been characterized for low particulate count and repeatability.  Only staff-supplied recipes are allowed in the tool. Please follow the new procedures to ensure low particle counts in the chamber.
The system currently has Deuterated Silane (SiD4) installed - identical to the regular Silicon precursor SiH4, except that it significantly lowers optical absorption in the near-infrared due to shifted molecular vibrations/molecular weights. This gas is more expensive and thus more applicable to optical application than to general-purpose SiN films.

Process Control Data (Unaxis ICP-PECVD)

Low Deposition Rate SiO2 [ICP-PECVD]

High Deposition Rate SiO2 [ICP-PECVD]

Gap-Fill SiO2 [ICP-PECVD]

Recipe designed by Warren Jin, please consider our publication policy if you publish using this recipe.

NOTE: Please contact tool supervisor before running this recipe - this recipe must often be scheduled to prevent excessive chamber maintenance.

Able to effectively fill ~1:1 and ~1:2 aspect ratio gaps in Silicon and Glass structures (eg. waveguides/optical gratings) with void-free filling.

The recipe uses a high 400W RF Bias to reduce buildup on corners that causes voids during growth.

  • Category = SiO2 GapFill - Std.
  • FLOW: SiO2 GapFill 250C
    • Will run the sequence SiO2 GapFill 250C 450W. Do not change this!
  • STEP (edit TIME only): SiO2 GapFill 250C
  • Deposition rate = 99.968nm/min [9/20/23]

Si3N4 [ICP-PECVD]

Low Stress Si3N4 [ICP-PECVD]

Standard Seasoning Procedure [ICP-PECVD]

You must edit the seasoning recipes (SiO2 Seasoning - Std, SiN seasoning - Std). You are allowed to change only seasoning time [time needed to coat chamber walls with ~200nm of film]. Seasoning recipes:

Standard Cleaning Procedure [ICP-PECVD]

You must edit the Post-Dep Clean recipe to correspond to your deposited thickness and material. See the Operating Procedure on the Unaxis Tool Page for details.

  • SiNx etches at 20nm/min
  • SiO2 etches at 40nm/min

Standard Clean Recipe

General Recipe Notes (Unaxis VLR ICP-PECVD)

  • RF1 = Bias
  • RF2 = ICP Power
  • All recipes start with an Argon pre-clean with 0W bias (gentle), to improve adhesion/nucleation.
  • Maximum SiO2 Dep. thickness allowed: 800nm
    • Above this thickness, you must run a chamber clean/season before depositing more onto your product wafer.