CMI etchers

1. Dry etching in MEMS fabricationby Cyrille Hibertin charge of etching activities in CMI clean room CMI-Comlab revue, june 4th, 2002

2. CMI etchers Alcatel 601E STS Multiplex ICP Other etcher manufacturers for MEMS processing: Oxford, Unaxis, AKT (Applied Material). CMI-Comlab revue, june 4th, 2002

3. ICP reactors Basic of ICP reactors Plasma density and ions energy are decoupled CMI-Comlab revue, june 4th, 2002

4. Complementarity of the two ICP etchers in CMI CMI-Comlab revue, june 4th, 2002

5. Si etching • 1) Deep anisotropic etching: • Bosch process, • Room T continuous process, • Cryogenic process. • 2) Thin film etching. • 3) Isotropic etching. Interdigit structure etching on SOI wafer using A601E. CMI-Comlab revue, june 4th, 2002

6. SiF4 F+ions SF6 plasma masque Si thin fluoro-carbon polymer film (passivation) ions C4F8 plasma Si SF6 plasma Si Basic on Bosch process Si etching using Bosch process - scalloping effect (on A601E) CMI-Comlab revue, june 4th, 2002

7. Bosch process on A601E • State of the art at CMI: • Anisotropy at 90° (vertical sidewall), • Etching uniformity (2 % to 5 %), • Selectivity Si:SiO2 (1:200 to 400) et Si:RP (1:100 to 200), • Etching rate: 6 to 12 um/min (loading effect + ARDE), • Sidewall roughness (actual process developpment), • Notching (hardware modification + process developpment). Under control In developpment CMI-Comlab revue, june 4th, 2002

8. Bosch process: sidewall roughness (a) (b) Sidewall roughness at the top of a deep anisotropic etching of Si (Bosch process on A601E) as a function of pulse duration: (a) SF6/C4F8 = 7s/2s (b) SF6/C4F8 = 3s/1s. CMI-Comlab revue, june 4th, 2002

9. Si Si SiO2 Bosch process: notching effect 380 um x min etching notching notching Si Si SiO2 Si SiO2 Etching through a Si wafer and stop on SiO2 (A601E) x min + overetch time CMI-Comlab revue, june 4th, 2002

10. SF6 + C4F8 plasma SiF4 CxFy+F+ions mask 20 °C Si thin fluoro-carbon polymer film Room T continuous process • very good anisotropy, • low roughness, • low etch rate, • well suited for low depth (<5 um). RIB waveguide on SOI wafer etch in A601E (optosimox project) CMI-Comlab revue, june 4th, 2002

11. SiF4 O+F+ions masque SF6 + O2 plasma m m m m m m m m m m m m 96 87 70 100 105 102 Si - 110 °C m 5 m m 10 m m 15 m m 20 m m 25 m m 30 m 4 inches in diameter, Si load 25 % , 40 min, 2/3 um/min Ultra thin layer of SiO2 Limitation of spontaneous chemical reaction and improvement of O sticking Cryogenic process • No polymer contamination (reactor, substrate), • Low sidewall roughness (20 nm P to P), • BUT sensible process and not so flexible than Bosch process! Etching of different trenches width in bulk Si (A601E). CMI-Comlab revue, june 4th, 2002

12. Anisotropic etching of thin Si film 20 nm SiO2 PR polySi Stop on 20 nm gate oxide SiO2 100 nm Poly-Si Si Chlorine chemistry is highly selective on SiO2 (STS Multiplex ICP) Cryogenic process is highly selective on SiO2 (A601E) CMI-Comlab revue, june 4th, 2002

13. Al membrane aSi SiO2 Si isotropic etching Largely used process for metal membranes releasing, More efficient dry release compare to polymer sacrficial layer, Carateristics: • Undercut etch rate can reach 7 um/min (for 1 um aSi), • Selectivity Si:SiO2 > 1000, • lateral aspect ratio > 200. Isotropic Si etching (A601E). CMI-Comlab revue, june 4th, 2002

14. SiF4,SiF2 COx, COF2 CxFy plasma C-F + F+ ions Fluorcarbon polymer deposition on sidewall mask Fluorocarbon interface on SiO2 surface. SiO2 20 °C Deep SiO2 etching (1) Key parameters: mask material, ions flux and energy (pressure, rf source power, DC bias), C/F ratio (chemistry). Bulk fused silica etching (40 um depth) on STS Multiplex ICP CMI-Comlab revue, june 4th, 2002

15. Deep SiO2 etching (2) • Discussion: • Anisotropy (vertical sidewall), • Masque material (PR, aSi, Al, Cr, Ni…), • Selectivity SiO2:mask (C/F, pressure, DCbias), • Reactor contamination (hardware problem), • Etch rate (till 1 um/min), • Roughness and slope sidewall, • Increase the aspect ratio. Under control challenges CMI-Comlab revue, june 4th, 2002

16. O2 plasma COx O + ions Passivation layer formed by the redeposition of sputtered material mask 20 °C thick polymer layer hold substrate Deep polymer etching • Mask (PR, SiO2, Al, Pt), • ER: 1 um/min. 6 um polyimide etching on STS Multiplex ICP CMI-Comlab revue, june 4th, 2002

17. Metal etching • Pt etching using Cl2/Ar chemistry (on STS Multiplex ICP) • selectivity Pt:RP  1:8, • ER: 30 nm/min. • AlSi etching using Cl2/BCl3 chemistry (on STS Multiplex ICP) • selectivity Al:RP  2:1, • ER: 0.2 to 0.5 um/min. CMI-Comlab revue, june 4th, 2002

18. Conclusion • CMI etching process evolution: • Maintaining existing processes (Si, SiO2, Si3N4, Polymer, Al, Pt, Ti, AlN, Saphir), • Deep Si etching : sidewall roughness. • Equipements evolution: • A601E Upgrade for notching control (Si etching), • Etcher dedicated to silice: • At the present time done on the 2 ICP not dedicated for this, • Increased ask for deep silica etching (microchannel, waveguide, holes), • Exclusive equipement (new internal/external pojects). CMI-Comlab revue, june 4th, 2002