MTL Memo Series, 2012

MTL maintains a comprehensive Memo Series covering the activities of MTL and related microsystems research at MIT. A chronological list of memos issued from 2012 appears below. Copies of MTL Memos are available online exclusively to members of the Microsystems Industrial Group (MIG) at MTL.

MIG members are invited to sign up for an account that will grant them access to these materials in a password-protected directory. Visit our website for more information and current memos.

MEMO # TITLE AUTHOR/S
12-2137 Extraction of large valence-band energy offsets and comparison to theoretical values for strained-Si/strained-Ge type-II heterostructures on relaxed SiGe substrates J. T. Teherani, W. Chern, D. A. Antoniadis, and J. L. Hoyt
12-2138 A Long Term Wearable Electrocardiogram (ECG) Measurement System M. K. Delano
12-2139 Indium Phosphide based Integrated Photonic Devices for Telecommunications and Sensing Applications T. Shih
12-2140 Low-Power and Application-specific SRAM Design for Energy-Efficient Motion Estimation M. Sinangil
12-2141 Design and Fabrication of a MEMS-Array Pressure Sensor System for Passive Underwater Navigation Inspired by the Lateral Line S. M. Hou
12-2142 Energy-efficient Wireless Sensors: Fewer Bits, Moore MEMS F. Chen
12-2143 Mechanical Energy Storage in Carbon Nanotube Springs F. A. Hill
12-2144 Front-end Circuits for a Photonic Analog-to-Digital Converter O. Uyar
12-2145 Laying Technological Groundwork for Templated Assembly by Selective Removal (TASR) at Biological Length Scales G. Agarwal
12-2146 A Flexible Underwater Pressure Sensor Array for Arti cial Lateral Line Applications F. M. Yaul
12-2147 Design of Ultra Low Power Analog-to-Digital Converter for Ambulatory EEG Recording D. R. El-Damak
12-2148 Fabrication and characterization of germanium-on-silicon photodiodes N. A. DiLello
12-2149 Techniques for High-Effciency Outphasing Power Amplifiers P. A. Godoy
12-2150 Circuit Design for Embedded Memory in Low-Power Integrated Circuits M. Qazi
12-2151 Application of CVD Graphene in Organic Photovoltaics as Transparent Conducting Electrodes H. Park