Advanced detectors and signal processing for bubble memories
Abstract
The feasibility of combining silicon and magnetic bubble technologies is demonstrated. Results of bubble film annealing indicate that a low temperature silicon on garnet technology is the most likely one to succeed commercially. Annealing ambients are also shown to have a major effect on the magnetic properties of bubble films. Functional MOSFETs were fabricated on bubble films coated with thick (approximately 1 micron) SiO2 layers. The two main problems with these silicon on garnet MOSFETs are low electron mobilities and large gate leakage currents. Results indicate that the laser recrystallized silicon and gate oxide (SiO2) layers are contaminated. The data suggest that part of the contaminating ions originate in the sputtered oxide spacer layer and part originates in the bubble film itself. A diffusion barrier, such as silicon nitride, placed between the bubble film and the silicon layer should eliminate the contamination induced problem.
- Publication:
-
Interim Report
- Pub Date:
- April 1985
- Bibcode:
- 1985cmu..rept.....K
- Keywords:
-
- Bubble Memory Devices;
- Field Effect Transistors;
- Signal Processing;
- Electron Mobility;
- Garnets;
- Laser Annealing;
- Magnetic Properties;
- Silicon Dioxide;
- Silicon Nitrides;
- Electronics and Electrical Engineering