ULTRARAM™ is a III-V semiconductor memory technology which exploits resonant tunneling to allow ultra-low-energy memory logic switching (per unit area), whilst retaining non-volatility. Single-cell memories developed on GaAs substrates with a revised design and atomic-layer-deposition Al 2 O 3 gate dielectric demonstrate significant improvements compared to prior prototypes. Floating-gate (FG) memories with 20-μm gate length show 0/1 state contrast from 2.5-V program-read-erase-read (P/E) cycles with 500-μs pulse duration, which would scale to sub-ns switching speed at 20-nm node. Nonvolatility is confirmed by memory retention tests of 4×10 3 s with both 0 and 1 states completely invariant. Single cells demonstrate promising endurance resul...
In this article, we investigate extensively the bipolar-switching properties of Al2O3- and HfO2-base...
We optimize and investigate extensively the sub-μA bipolar operation of scaled Al2O3- and HfO2-based...
The down-scaling of nanocrystal Si (nc-Si) floating gate memory must overcome the challenge of leaka...
ULTRARAM™ is a III-V semiconductor memory technology which exploits resonant tunneling to allow ultr...
ULTRARAM is a III-V compound semiconductor memory concept that exploits quantum resonant tunneling t...
In this thesis, a novel memory based on III-V compound semiconductors is studied, both theoretically...
ULTRARAM is a nonvolatile memory with the potential to achieve fast, ultralow‐energy electron storag...
ULTRARAM is a nonvolatile memory with the potential to achieve fast, ultralow-energy electron storag...
ULTRARAM is a III-V compound semiconductor memory concept that exploits quantum resonant tunneling t...
Whilst the different forms of conventional (charge-based) memories are well suited to their individu...
ULTRARAM™ is a III–V semiconductor memory technology which allows non-volatile logic switching at ul...
Dynamic random-access memory (DRAM), which represents 99% of random access memory (RAM), is fast and...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
[[abstract]]A GaAs metal-oxide-semiconductor field-effect transistor (MOSFET) with thin Al2O3 gate d...
ULTRARAMTM is a novel floating-gate nonvolatile memory in which the oxide barrier of flash is replac...
In this article, we investigate extensively the bipolar-switching properties of Al2O3- and HfO2-base...
We optimize and investigate extensively the sub-μA bipolar operation of scaled Al2O3- and HfO2-based...
The down-scaling of nanocrystal Si (nc-Si) floating gate memory must overcome the challenge of leaka...
ULTRARAM™ is a III-V semiconductor memory technology which exploits resonant tunneling to allow ultr...
ULTRARAM is a III-V compound semiconductor memory concept that exploits quantum resonant tunneling t...
In this thesis, a novel memory based on III-V compound semiconductors is studied, both theoretically...
ULTRARAM is a nonvolatile memory with the potential to achieve fast, ultralow‐energy electron storag...
ULTRARAM is a nonvolatile memory with the potential to achieve fast, ultralow-energy electron storag...
ULTRARAM is a III-V compound semiconductor memory concept that exploits quantum resonant tunneling t...
Whilst the different forms of conventional (charge-based) memories are well suited to their individu...
ULTRARAM™ is a III–V semiconductor memory technology which allows non-volatile logic switching at ul...
Dynamic random-access memory (DRAM), which represents 99% of random access memory (RAM), is fast and...
As the Internet of Things (IoT) era emerges the need for ultra-low power (ULP) devices is becoming m...
[[abstract]]A GaAs metal-oxide-semiconductor field-effect transistor (MOSFET) with thin Al2O3 gate d...
ULTRARAMTM is a novel floating-gate nonvolatile memory in which the oxide barrier of flash is replac...
In this article, we investigate extensively the bipolar-switching properties of Al2O3- and HfO2-base...
We optimize and investigate extensively the sub-μA bipolar operation of scaled Al2O3- and HfO2-based...
The down-scaling of nanocrystal Si (nc-Si) floating gate memory must overcome the challenge of leaka...