Abstract — Heavy ions typical of the space environment have energies which exceed by orders of magnitude those available at particle accelerators. In this paper we are irradiating state of the art Floating Gate memories by using a medium energy (SIRAD) and a high energy (RADEF) facilities. The corruption of stored information decreases when increasing ion energy. The proposed model deals with the broader track found for higher energy ions. Implications for testing procedures and for reliability considerations are discussed. I
We studied the impact of previous X-ray irradiation on the sensitivity of floating gate cells to hea...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...
We discuss the room temperature annealing of Floating Gate errors in Flash memories with NAND and NO...
We are presenting new data on the charge loss in large Floating Gate (FG) memory arrays subjected to...
We have addressed the problem of threshold voltage (VTH) variation in Flash memory cells after heavy...
Electronic chips working in the space environment are constantly subject to both single event and 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...
We studied heavy-ion effects on floating gate memories, focusing on the generation of tails in the t...
Floating Gate (FG) memories, and in particular Flash, are the most important player in nowadays nonv...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
We investigate threshold voltage shifts induced by heavy ions in sub 70-nm charge-trap cells, based ...
The retention of floating gate cells is studied up to one year after heavy-ion exposure, without usi...
One of the key factors permitting the extraordinary success offloating gate (FG) nonvolatile memorie...
In this summary we are showing preliminary but important and new results obtained in EPROM arrays ...
We studied the impact of previous X-ray irradiation on the sensitivity of floating gate cells to hea...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...
We discuss the room temperature annealing of Floating Gate errors in Flash memories with NAND and NO...
We are presenting new data on the charge loss in large Floating Gate (FG) memory arrays subjected to...
We have addressed the problem of threshold voltage (VTH) variation in Flash memory cells after heavy...
Electronic chips working in the space environment are constantly subject to both single event and 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...
We studied heavy-ion effects on floating gate memories, focusing on the generation of tails in the t...
Floating Gate (FG) memories, and in particular Flash, are the most important player in nowadays nonv...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
We investigate threshold voltage shifts induced by heavy ions in sub 70-nm charge-trap cells, based ...
The retention of floating gate cells is studied up to one year after heavy-ion exposure, without usi...
One of the key factors permitting the extraordinary success offloating gate (FG) nonvolatile memorie...
In this summary we are showing preliminary but important and new results obtained in EPROM arrays ...
We studied the impact of previous X-ray irradiation on the sensitivity of floating gate cells to hea...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...
We discuss the room temperature annealing of Floating Gate errors in Flash memories with NAND and NO...