Residual Clamping Force and Dynamic Random Access Memory Data Retention Improved by Gate Tungsten Etch Dechucking Condition in a Bipolar Electrostatic Chuck
スポンサーリンク
概要
- 論文の詳細を見る
It was found that the residual clamping force of bipolar electrostatic chucks created by the residual charge between a wafer and an electrode would not only cause a wafer sticking problem but also degrade dynamic random access memory (DRAM) data retention performance. The residual clamping force and data retention fail bit count (FBC) of DRAM showed strong correlations to the gate tungsten etch dechucking process condition. Wafer sticking only degraded DRAM cell retention performance, and did not influence any in-line measurement or electrical parameters. Electrical characterization analysis of the FBC proved that the retention loss was mainly due to junction leakage rather than gate-induced-drain-leakage current. A new approach was proposed to suppress this leakage by introducing N2 gas instead of O2 to supply more plasma charges for neutralizing the wafer surface residual charges. The wafer shift dynamic alignment (DA) offset and retention FBC could be reduced by 50 and 40%, respectively. Poor data retention was suspected because of the compressive stress caused by wafer sticking DA shift resulting in a high electric field at the junction and an increase in junction leakage at the storage node.
- 2012-08-25
著者
-
Lai Chao-sung
Department Of Electronic Engineering Chang Gung University
-
Yang Chia-ming
Department Of Electronic Engineering Chang Gung University
-
Lee Chung-Yuan
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Wang David
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Lin Betty
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Lee Siimon
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Huang Chi-Hung
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Wei Chen
Inotera Memories, Inc., Kweishan, Taoyuan, Taiwan 333, R.O.C.
-
Yang Chia-Ming
Department of Electronic Engineering, Chang Gung University, Kweishan, Taoyuan, Taiwan 333, R.O.C.
関連論文
- Work Function Adjustment by Nitrogen Incorporation in HfN Gate Electrode
- Full Range Work Function Modulation by Nitrogen Incorporation in Hf-Mo Binary Alloys Gate Electrode
- pH Sensing Performance and Electrical Characterization on Hafnium Oxide Gate ISFETs with Single and Dual Stack Insulator by RF Sputtering
- Novel inorganic pH-insensitive membrane prepared by post N_2O plasma treatment on conventional Si_3N_4/SiO_2 stack layer for REFET application
- Modifications on pH sensitivity of Si_3N_4 membrane by CF_4 plasma and rapid thermal annealing for ISFET/REFET applications
- Thickness Effects on pH Response of HfO2 Sensing Dielectric Improved by Rapid Thermal Annealing (Special Issue: Solid State Devices & Materials)
- Thickness Effects on pH Response of HfO_2 Sensing Dielectric Improved by Rapid Thermal Annealing
- In-Situ Fluorinated Low-Temperature Polycrystalline Silicon (LTPS) Thin-Film Transistors (TFT) with Low Trapping and Off Current by CF_4 Plasma
- Nitrogen Induced Extrinsic States (NIES) in Effective Work Function Instability of TiN_x/SiO_2 and TiN_x/HfO_2 Gate Stacks
- Ion Polarity Dependent Voltage Shifts of SiGe Membrane for pH Sensor
- Effects of CF4 Plasma Treatment on pH and pNa Sensing Properties of Light-Addressable Potentiometric Sensor with a 2-nm-Thick Sensitive HfO2 Layer Grown by Atomic Layer Deposition
- Differential Light Addressable Potentiometric Sensor with Poly(vinyl chloride) and HfO2 Membranes for pH Sensors
- Reference Electrode--Insulator--Nitride--Oxide--Semiconductor Structure with Sm2O3 Sensing Membrane for pH-Sensor Application
- Threshold Voltage Tunability of p-Channel Metal Oxide Semiconductor Field-Effect Transistor with Ternary HfxMoyNz Metal Gate and Gd2O3 High-$k$ Gate Dielectric
- Light Addressable Potentiometric Sensor with Fluorine-Terminated Hafnium Oxide Layer for Sodium Detection
- High-$k$ HfxGdyOz Charge Trapping Layer in Silicon–Oxide–Nitride–Silicon Type Nonvolatile Memory by In situ Radio Frequency Dual-Sputtering Method
- Chemical Sensing Properties of Electrolyte/SiGe/SiO2/Si Structure
- Dynamic Charge Centroid on Data Retention of Double-Nanostructure Nonvolatile Memory
- Residual Clamping Force and Dynamic Random Access Memory Data Retention Improved by Gate Tungsten Etch Dechucking Condition in a Bipolar Electrostatic Chuck
- pH Sensing Characterization of Programmable Sm2O3/Si3N4/SiO2/Si Electrolyte--Insulator--Semiconductor Sensor with Rapid Thermal Annealing
- Effects of Thickness Effect and Rapid Thermal Annealing on pH Sensing Characteristics of Thin HfO2 Films Formed by Atomic Layer Deposition
- Negative Bias Temperature Instability of p-Channel Metal Oxide Semiconductor Field Effect Transistor with Novel HfxMoyNz Metal Gate Electrodes
- Thickness Effects on pH Response of HfO2 Sensing Dielectric Improved by Rapid Thermal Annealing
- Light-Immune pH Sensor with SiC-Based Electrolyte--Insulator--Semiconductor Structure