Latch-up based bidirectional npn selector for bipolar resistance-change memory

Sungho Kim; Dong Il Moon; Wei Lu; Dae Hwan Kim; Dong Myong Kim; Yang Kyu Choi; Sung Jin Choi

doi:10.1063/1.4813832

Latch-up based bidirectional npn selector for bipolar resistance-change memory

Sungho Kim
, Dong Il Moon
, Wei Lu
, Dae Hwan Kim
, Dong Myong Kim
, Yang Kyu Choi
, Sung Jin Choi

Semiconductor Engineering

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

A vertically integrated latch-up based n-p-n bidirectional diode, which is analogous to an open-base bipolar junction transistor, is demonstrated for bipolar resistance-change memory selector application. A maximum current density of >50 MA/cm² and a selectivity of >10⁴ are observed at a fast switching speed of within 10 ns. The high selectivity as a consequence of the sudden latch-up process is feasible owing to the positive-feedback process initiated by impact ionization. The optimization of the turn-on voltage is comprehensively investigated by numerical device simulation, which ensures the promising potential of the latch-up based selector device.

Original language	English
Article number	033505
Journal	Applied Physics Letters
Volume	103
Issue number	3
DOIs	https://doi.org/10.1063/1.4813832
State	Published - 15 Jul 2013

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title = "Latch-up based bidirectional npn selector for bipolar resistance-change memory",

abstract = "A vertically integrated latch-up based n-p-n bidirectional diode, which is analogous to an open-base bipolar junction transistor, is demonstrated for bipolar resistance-change memory selector application. A maximum current density of >50 MA/cm2 and a selectivity of >104 are observed at a fast switching speed of within 10 ns. The high selectivity as a consequence of the sudden latch-up process is feasible owing to the positive-feedback process initiated by impact ionization. The optimization of the turn-on voltage is comprehensively investigated by numerical device simulation, which ensures the promising potential of the latch-up based selector device.",

author = "Sungho Kim and Moon, \{Dong Il\} and Wei Lu and Kim, \{Dae Hwan\} and Kim, \{Dong Myong\} and Choi, \{Yang Kyu\} and Choi, \{Sung Jin\}",

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doi = "10.1063/1.4813832",

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T1 - Latch-up based bidirectional npn selector for bipolar resistance-change memory

AU - Kim, Sungho

AU - Moon, Dong Il

AU - Lu, Wei

AU - Kim, Dae Hwan

AU - Kim, Dong Myong

AU - Choi, Yang Kyu

AU - Choi, Sung Jin

PY - 2013/7/15

Y1 - 2013/7/15

N2 - A vertically integrated latch-up based n-p-n bidirectional diode, which is analogous to an open-base bipolar junction transistor, is demonstrated for bipolar resistance-change memory selector application. A maximum current density of >50 MA/cm2 and a selectivity of >104 are observed at a fast switching speed of within 10 ns. The high selectivity as a consequence of the sudden latch-up process is feasible owing to the positive-feedback process initiated by impact ionization. The optimization of the turn-on voltage is comprehensively investigated by numerical device simulation, which ensures the promising potential of the latch-up based selector device.

AB - A vertically integrated latch-up based n-p-n bidirectional diode, which is analogous to an open-base bipolar junction transistor, is demonstrated for bipolar resistance-change memory selector application. A maximum current density of >50 MA/cm2 and a selectivity of >104 are observed at a fast switching speed of within 10 ns. The high selectivity as a consequence of the sudden latch-up process is feasible owing to the positive-feedback process initiated by impact ionization. The optimization of the turn-on voltage is comprehensively investigated by numerical device simulation, which ensures the promising potential of the latch-up based selector device.

UR - https://www.scopus.com/pages/publications/84881506670

U2 - 10.1063/1.4813832

DO - 10.1063/1.4813832

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VL - 103

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 3

M1 - 033505

ER -

Latch-up based bidirectional npn selector for bipolar resistance-change memory

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