Your search keyword '"Gokce, Aisha"' showing total 2 results

1. Toward Multiple-Bit-Per-Cell Memory Operation With Stable Resistance Levels in Phase Change Nanodevices.

Author

Gokce, Aisha, Cinar, Ibrahim, Ozdemir, Servet C., Cogulu, Egecan, Stipe, Barry, Katine, Jordan A., and Ozatay, Ozhan

Subjects

*PHASE change memory, *ELECTRODES, *ELECTRICAL conductors, *FINITE element method, *NUMERICAL analysis, *RANDOM access memory, *SEMICONDUCTOR storage devices

Abstract

Resistance drift of the amorphous states of multilevel phase change memory (PCM) cells is currently a great challenge for the commercial implementation of a reliable multiple-bit-per-cell memory technology. This paper reports observation of a stable intermediate state for a multilevel PCM cell that is achieved through nonuniform heating with a square current injection top electrode. Drift coefficient of the intermediate state is an order of magnitude lower than reset and has weaker temperature dependence. Using finite-element simulations and an analytical model for the subthreshold current–voltage characteristics, based on thermally activated hopping of charge carriers across Coulombic donor-like traps, we conclude that the defect density is two orders of magnitude larger in the intermediate state. We attribute the low drift coefficient of the intermediate state to a large number of stable interfacial defects which dominate the electron transport. Current findings give way to a more stable ultrahigh-density PCM device. [ABSTRACT FROM PUBLISHER]

Published

2016

2. SHOT NOISE SUPPRESSION IN INDIVIDUAL AND SERIES ARRAYS OF MAGNETIC TUNNEL JUNCTIONS.

Author

GOKCE, AISHA, STEARRETT, RYAN, NOWAK, E. R., NORDMAN, C., and Yakimov, Arkady Victorovich

Subjects

*SEMICONDUCTOR junctions, *ELECTRONIC noise, *QUANTUM tunneling, *ELECTRODES, *ANNEALING of crystals, *SCALING laws (Statistical physics)

Abstract

Charge-current shot noise is investigated in single magnetic tunnel junctions and devices having multiple junctions that are connected in series. The ratio of the measured shot noise in single junctions to the expected Poisson value, namely the Fano factor, F, is observed to vary from 1 to well below 0.5. Deviations from F = 1 are attributed to localized states (defects) located in the tunnel barrier or at the interfaces with the magnetic electrodes. For series arrays of junctions, the Fano factor scales inversely with the number (1 ≤ N ≤ 30) of junctions in series, even for junctions exhibiting sub-Poissonian (F < 1) shot noise. The 1/N scaling is consistent with the incoherent tunneling of electrons across junctions and indicates that each junction behaves as an individual noise source. The advantages of incorporating series arrays of magnetic tunnel junctions into devices for magnetic field sensing are discussed. [ABSTRACT FROM AUTHOR]

Published

2011