We are presenting new data on the charge loss in large floating gate (FG) memory arrays subjected to heavy ion irradiation. Existing models for charge loss from charged FG and generation-recombination after a heavy ion strike are insufficient to justify (or in contrast with) our experimental results. In particular, the charge loss is by far larger than predicted by existing models, it depends on the number of generated holes, not on those surviving recombination, and it is larger for FGs with larger threshold voltage before irradiation. We show that these data can be explained as the effect of two different mechanisms. The first one is a semi-permanent multi trap-assisted tunneling (TAT), which closely resembles anomalous stress induced lea...
Single ions impacting on SiO2 layers generate tracks of defects which may result in a Radiation Indu...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
We present the first charge loss model of heavy ion induced radiation damage on nanocrystal memory c...
We are presenting new data on the charge loss in large floating gate (FG) memory arrays subjected to...
We are presenting new data on the charge loss in large Floating Gate (FG) memory arrays subjected to...
Floating Gate (FG) memories are the most important of nowadays nonvolatile memory technologies. We a...
Floating Gate (FG) memories, and in particular Flash, are the most important player in nowadays nonv...
We have addressed the problem of threshold voltage (VTH) variation in Flash memory cells after heavy...
Every time a heavy ion crosses a programmed Floating Gate (FG) in a nonvolatile memory array, it qui...
We investigate threshold voltage shifts induced by heavy ions in sub 70-nm charge-trap cells, based ...
One of the key factors permitting the extraordinary success offloating gate (FG) nonvolatile memorie...
Flash memories are the leader among nonvolatile memory technologies. Ionizing radiation impact their...
We studied heavy-ion effects on floating gate memories, focusing on the generation of tails in the t...
Abstract — Heavy ions typical of the space environment have energies which exceed by orders of magni...
Electronic chips working in the space environment are constantly subject to both single event and to...
Single ions impacting on SiO2 layers generate tracks of defects which may result in a Radiation Indu...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
We present the first charge loss model of heavy ion induced radiation damage on nanocrystal memory c...
We are presenting new data on the charge loss in large floating gate (FG) memory arrays subjected to...
We are presenting new data on the charge loss in large Floating Gate (FG) memory arrays subjected to...
Floating Gate (FG) memories are the most important of nowadays nonvolatile memory technologies. We a...
Floating Gate (FG) memories, and in particular Flash, are the most important player in nowadays nonv...
We have addressed the problem of threshold voltage (VTH) variation in Flash memory cells after heavy...
Every time a heavy ion crosses a programmed Floating Gate (FG) in a nonvolatile memory array, it qui...
We investigate threshold voltage shifts induced by heavy ions in sub 70-nm charge-trap cells, based ...
One of the key factors permitting the extraordinary success offloating gate (FG) nonvolatile memorie...
Flash memories are the leader among nonvolatile memory technologies. Ionizing radiation impact their...
We studied heavy-ion effects on floating gate memories, focusing on the generation of tails in the t...
Abstract — Heavy ions typical of the space environment have energies which exceed by orders of magni...
Electronic chips working in the space environment are constantly subject to both single event and to...
Single ions impacting on SiO2 layers generate tracks of defects which may result in a Radiation Indu...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
We present the first charge loss model of heavy ion induced radiation damage on nanocrystal memory c...