ICP-RIE equipment for any chemistry

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Presentation transcript:

ICP-RIE equipment for any chemistry Corial 210IL 11/9/2018 Get Maximum Flexibility ICP-RIE equipment for any chemistry Wide process range for Silicon, Metals, III-V and II-VI compounds Support ICP, RIE, ALE and DRIE process recipes in the same reactor Smaller wafer pieces up to full 200 mm wafer Corial 210IL

System description Corial 210IL

30 % THE MOST COMPACT MACHINE System description SMALLER FOOTPRINT 11/9/2018 General View THE MOST COMPACT MACHINE ON THE MARKET ICP source 960 750 360 1570 600 420 390 490 30 % SMALLER FOOTPRINT Corial 210IL

System description EPD with laser ICP reactor Load lock Pumping system 11/9/2018 Detailed View EPD with laser ICP reactor Load lock Pumping system (TMP 500l/s and dry pump 110 m3/h) Chiller / Heater HV and LV power supplies ICP generator (2 Mhz) RF generator (13,56 Mhz) Process controller Corial 210IL

< 180 s Vacuum robot Shuttle System description Loading 11/9/2018 LOADING TIME Vacuum robot FAST AND REPEATABLE LOAD AND UNLOAD Shuttle EASY EXCHANGE BETWEEN SUBSTRATE SHAPE AND SIZE Corial 210IL

ICP SOURCE corial 210IL

FAST AND UNIFORM ETCHING ICP source 11/9/2018 CORIAL’s Latest Generation of Reactor Load lock to run fluorinated and chlorinated chemistries in the same process recipe Load lock for stable and repeatable process conditions RF match box with matching range up to 2000 W Uniform temperature control (from -50°C) for best repeatability Hot walls (>250°C) minimize polymer condensation for selective processes Hot walls and retractable liner reduce clean time Retractable liner and shuttle holding to minimize process cross-contamination FAST AND UNIFORM ETCHING Polymers 800 nm/min Diamond 500 nm/min GaN 1200 nm/min … Corial 210IL

EASY LINER replacement by a single person ICP Source 11/9/2018 Retractable Quartz Liner THE LINER FOR HARSH ICP-RIE PROCESSES EASY LINER replacement by a single person 5 min Liner replacement 4 min Pumping down to 10-4 Tor ZERO CROSS CONTAMINATION 1 min Reactor Venting 5 min Plasma cleaning Corial 210IL

Icp source 11/9/2018 RF Coupling to ICP Source < 15 volts Minimum parasitic capacitive coupling giving rise to low plasma potential to enable low damage etching SiO2 Isotropic etching with NO RF biasing GaN Low damage etching with low RF biasing Corial 210IL

1 ICP source Operation Sequence Cathode Shuttle Loading 11/9/2018 Loading tool Shuttle Cathode Shuttle Loading 1 Corial 210IL

2 ICP source Operation Sequence Cathode Cathode Up 11/9/2018 Shuttle Loading tool Shuttle Cathode Cathode Up 2 Corial 210IL

Plasma heats wafer and clamping ring ICP source 11/9/2018 Operation Sequence Cathode Loading tool Shuttle Helium PLASMA Coolant IN Coolant OUT Heat is transferred to shuttle and to the cooled cathode by He pressure at 5 Torr Plasma heats wafer and clamping ring 3 Corial 210IL

Icp source 11/9/2018 Temperature Control New cathode design and efficient helium back side cooling of the shuttle and substrate ensure uniform temperature control (from -50°C) during the etch process Test based on 1 KW configuration for sapphire etching (1 X 2” wafers) Process Etch rate ICP Power RF Power Sapphire 300 nm/min 1 KW 280 W No resist damage when operating at full ICP and RF power (Novolak type photoresist baked at 110°C) Corial 210IL

Icp source 11/9/2018 Reactor Uniformity Benchmark uniformity test: 500 nm etching of thermal oxide (8” wafers) Process Etch depth Uniformity ICP Power RF Power Thermal SiO2 500 nm ± 2.2% 800 W 150 W Remaining 100 nm measured by ellipsometry Measurement performed with 5 mm edge exclusion Corial 210IL

Maximum flexibility with the only 200 mm etch system with the capability to support ICP, RIE, ALE and DRIE processing in the SAME reactor

Shuttle holding approach corial 210IL

Shuttle holding approach 11/9/2018 Portfolio Clamping ring Quartz shuttle Wafers Wafer Moving plate O’rings O’ring Base plate Aluminum table Guaranteed no wafer damage due to SOFT wafer clamping Corial 210IL

Shuttle holding approach 11/9/2018 Benefits Quick adaptation to sample shape and size Optimum process conditions with NO modification of process chamber Limited cross contamination between processes by using dedicated shuttles Shuttles for single wafer treatment: 1 x 2”, 1 x 3”, 1 x 4”, 1 x 6”, 1 x 8” Shuttles for batch processing : 7 x 2”, 3 x 3” Customized shuttles are available (4” x 4”, 5” x 5”, etc) Corial 210IL

Performances ICP-rie processes corial 210IL

Fluorinated chemistry Icp-RIE of Si 11/9/2018 Fluorinated chemistry High Resolution ICP-RIE of Si ICP-RIE of Si microlenses 40 µm high Corial 210IL

Icp-rie of oxides and nitrides 11/9/2018 Fluorinated chemistry ICP-RIE of SiO2 ICP-RIE of Si3N4 ICP-RIE of SiO2 Microlenses Corial 210IL

Icp-rie of hard materials 11/9/2018 Fluorinated chemistry ICP-RIE of SiC With no trenching Tapered ICP-RIE of SiC ICP-RIE of Diamond Corial 210IL

Fluorinated chemistry Icp-rie of polymers 11/9/2018 Fluorinated chemistry BCB etching with PR mask ICP-RIE of Polyimide Anisotropic etching of Polyimide with SiO2 mask Corial 210IL

Icp-rie of III-V Compounds 11/9/2018 Chlorinated chemistry Low damage ICP-RIE of GaN VCSEL ICP-RIE of GaN (Mesa) Corial 210IL

Icp-rie of III-V compounds 11/9/2018 Chlorinated and hydrocarbon chemistry ICP-RIE of InP RIE of InP 0.1 µm lines and spaces Deep RIE etching of InP Corial 210IL

Icp-rie of II-VI compounds 11/9/2018 Corial 210IL

Icp-rie of metals ICP-RIE of Al ICP-RIE of Ta ICP-RIE of Cr 11/9/2018 Corial 210IL

Process performances (nm/min) (vs mask) (across wafer) Process Mask 11/9/2018 High Etch Rates & Excellent Uniformities Process Mask Etch rate (nm/min) Selectivity (vs mask) Uniformity (across wafer) Polymers PR 800 1 ±5% SiO2 400 > 3 ±3% Si3N4 350 > 4 Diamond 500 > 25 Cr 60 0.8 InP 1200 InSb 250 > 6 GaN (Mesa) 600 GaN (Iso) > 1 ZnS 100 CdTe 300 > 2 MCT Corial 210IL

Performances Drie processes corial 210IL

Drie of hard materials 11/9/2018 ICP power up to 2000 W and RF power up to 1000 W to enable fast and deep etching of hard materials DRIE of SiC DRIE of glass DRIE of sapphire DRIE of quartz Corial 210IL

Process performances (nm/min) (vs mask) (across wafer) Process Mask 11/9/2018 High Etch Rates & Excellent Uniformities Process Mask Etch rate (nm/min) Selectivity (vs mask) Uniformity (across wafer) Quartz PR > 1200 2 ±3% SiC Ni > 1500 > 20 Sapphire > 500 > 6 Glass > 800 > 15 LiNbO3 / LiTaO3 300 > 5 Corial 210IL

PERFORMANCES TIME-MULTIPLEXED PROCESSES corial 210IL with cosma pulse

COSMA Pulse is a control software that broadens conventional tools’ process capabilities to enable time-multiplexed processes

Cosma pulse description 11/9/2018 Advanced Process Control Show/close all the details of the pulsed parameters Show the pulsed parameters Mode: Pulsed Details of the pulsed parameter setting 10 ms DATA AQUISITION ALL PARAMETERS CAN BE CONTROLLED AND PULSED UPGRADE FOR CORIAL’S SYSTEMS ALREADY INSTALLED AT CUSTOMERS’ SITES Corial 210IL

Small feature Si etching Drie of silicon 11/9/2018 Precise control of the etch profile, fast etch rates, and excellent etch uniformity Si etching 40 µm deep Si etching 60 µm deep Si etching 250 µm deep Small feature Si etching (AR 1:15) Corial 210IL

Results obtained with 100 mm wafer, 20% Si open area Drie of silicon 11/9/2018 Various Aspect Ratios Feature size (µm) Etched depth Aspect ratio Etch rate (µm/min) Mask Selectivity (vs. mask) Ø250 Through wafer 1:2 > 3.0 SiO2 330 Ø100 515 1:5 > 2.9 PR 85 Ø20 280 1:14 > 1.5 155 Ø5 180 1:35 > 1.0 100 Results obtained with 100 mm wafer, 20% Si open area Corial 210IL

Advanced tuning of RF pulsing to control ion energy Ale of silicon 11/9/2018 Advanced tuning of RF pulsing to control ion energy Independent and rapid pulsing of chlorine and argon flows during adsorption and desorption steps Real-time process adjustment Corial 210IL

Silicon etch rate of 1.67 nm/min with atomically smooth surfaces Ale of silicon 11/9/2018 Silicon etch rate of 1.67 nm/min with atomically smooth surfaces Silicon wafer before etching Roughness = 0.188 nm Silicon wafer after 0.5 µm deep etching Roughness = 0.277 nm Corial 210IL

Performances sputter-etch processes Corial 210IL

METAL RIE SPUTTER-ETCH MODE 11/9/2018 Retractable Liner Ni COATED LINER TO COLLECT SPUTTERED MATERIALS IN METAL RIE SPUTTER-ETCH MODE Pt SPUTTERING WITH PR MASK Corial 210IL

95 % 30 MIN OVER Reactor cleaning UPTIME REACTOR CLEANING 7 min 10 min 11/9/2018 High Uptime OVER 95 % UPTIME 3 min Reactor Venting 7 min Pumping down to 10-4 Tor 10 min Mechanical cleaning Plasma cleaning LESS THAN 30 MIN REACTOR CLEANING Corial 210IL

usability corial 210IL

Process control software 11/9/2018 COSMA COSMA CORIAL OPERATING SYSTEM FOR MACHINE The simplest, most efficient software to develop processes, operate, and maintain CORIAL systems DESKTOP APPLICATION Process Editing I Process Adjustment I Process Operation I Process Tracability I System Maintenance REMOTE CONTROL MOBILE APPLICATION Module & Process Follow-Up I Alarms & Warnings Connected Users NEW 2018 Corial 210IL

Reprocessing software 11/9/2018 COSMA RS DISPLAY UP TO 4 PARAMETERS FROM A RUN Simple and efficient software to analyze process runs and accelerate process development REMOTE ANALYSIS OF RUNS DRAG AND DROP CURVES TO CHECK PROCESS REPEATABILITY Corial 210IL

End point detection EPD with laser Real-Time etch rate measurement 11/9/2018 EPD with laser A CCD camera and laser diode, in the same measuring head, enables simultaneous visualization of the wafer surface and the laser beam impact on it. A 20 µm diameter laser spot facilitates the record of interference signals. Real-Time etch rate measurement Real-Time etched depth measurement Corial 210IL

ICP-RIE equipment for any chemistry Corial 210IL 11/9/2018 Get Maximum Flexibility ICP-RIE equipment for any chemistry Wide process range for Silicon, Metals, III-V and II-VI compounds Support ICP, RIE, ALE and DRIE process recipes in the same reactor Smaller wafer pieces up to full 200 mm wafer Corial 210IL