Научная статья на тему 'EFFECT OF LASER PROCESSING ON THE PARAMETERS OF GALLIUM ARSENIDE SCHOTTKY DIODES'

EFFECT OF LASER PROCESSING ON THE PARAMETERS OF GALLIUM ARSENIDE SCHOTTKY DIODES Текст научной статьи по специальности «Электротехника, электронная техника, информационные технологии»

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Ключевые слова
PARAMETERS / DIODE / STRUCTURE / BARRIER / SCHOTTKY / LASER / PLATE / DIAMETER

Аннотация научной статьи по электротехнике, электронной технике, информационным технологиям, автор научной работы — Bekbergenov S.E., Bazarbayeva F.M.

The article considers the effect of laser processing on the parameters of gallium arsenide Schottky diodes. In the experiment, diode structures with a Pt-n-n+-GaAs Schottky barrier were used, formed on epitaxial GaAs structures with a dopant concentration in the n-layer of 1 3 1016 cm-3 and its thickness of ~5 6 μm.

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Текст научной работы на тему «EFFECT OF LASER PROCESSING ON THE PARAMETERS OF GALLIUM ARSENIDE SCHOTTKY DIODES»

UDC 53

Bekbergenov S.E. assistant professor Bazarbayeva F.M. master student

Karakalpak State University named after Berdakh

Republic of Karakalpakstan

EFFECT OF LASER PROCESSING ON THE PARAMETERS OF GALLIUM ARSENIDE SCHOTTKY DIODES

Annotation: The article considers the effect of laser processing on the parameters of gallium arsenide Schottky diodes. In the experiment, diode structures with a Pt-n-n+-GaAs Schottky barrier were used, formed on epitaxial GaAs structures with a dopant concentration in the n-layer of 1 3 1016 cm-3 and its thickness of ~5 6 ¡im.

Key words: parameters, diode, structure, barrier, Schottky, laser, plate, diameter.

Interest in the use of beam processing in technological processes is primarily due to the real possibility to control the parameters of both individual elements in some parts of the plate, and in general over the entire area of the working plate. Such types of processing include the impact on the semiconductor of laser radiation. In most well-known works devoted to laser processing of diode structures with a Schottky barrier, the effect of their influence on the change in the parameters of barrier structures is studied up to the evolution of the barrier contact into an ohmic one [1-3]. At the same time, there are practically no studies on the formation of diode structures with a Schottky barrier with close or identical parameters on a wafer using laser irradiation. In this work, such an attempt was made.

In the experiment, diode structures with a Pt-n-n+-GaAs Schottky barrier were used, formed on epitaxial GaAs structures with a dopant concentration in the n-layer of 1 3 1016 cm-3 and its thickness of ~5 6 ^m. The dopant concentration in the n+ substrate was 2-1018 cm-3, the substrate thickness was ~300 ^m. The diameter of the Schottky barrier was ~1.2 mm.

The ohmic contact was obtained on the basis of gold-germanium evetectics followed by the deposition of a ~1 ^m thick gold layer. The samples were irradiated with a single pulse with a duration of ~10 ns from a laser with A=1.06 ^m at energy densities of 10-6 10-5 J/cm2. Before and after irradiation, the forward and reverse branches of current-voltage characteristics (CVCs) of diode structures at room temperature were measured, from which the ideality factor n, Schottky barrier height 9b, saturation current Is, and avalanche breakdown voltage VB were determined. The capacitive-voltage characteristics

(CV characteristics) were also measured, from which the dopant concentration (doping level ND) and the capacitive cutoff voltage Vi were determined.

The forward branches of the I-V characteristics of the initial samples were described by the known dependence of the current I on the applied voltage V

I = Is • exp

' e • V ^

n • к • T

\ n • к • T J

where js = a ■ t2 • s ■ expf-^^^^ - saturation current, e-electron charge, kl k ■t J

constant Boltzmann, T-temperature, Richardson's A-constant, S-Schottky diode area.

The values of n and 9b calculated from this dependence are shown in Figs. a, b. From fig. a, b. it can be seen that in the original plate there is a significant spread in the parameters of forward-biased diodes with a Schottky barrier.

As each of the diodes was irradiated, a change in the parameters n and 9b was observed. In this case, individual laser treatment of the diodes made it possible to adjust the values of n and 9b in such a way as to ensure the minimum spread of these parameters. On fig. a, b. the distribution histograms of n and 9b after individual irradiation of Schottky barriers corresponding to this condition are given. It can be seen that for 80% of the diodes, the ideality factor has significantly decreased, and for 75%, the height of the Schottky barrier has increased. In accordance with those shown in fig. By changing n and 9b, the saturation current IS decreased significantly, by more than an order of magnitude.

Si

I I до ЛО

по о л еЛО I

«—■И^И

Fig. Distribution histograms of the ideality factor of Schottky diodes Pt-n-n+-GaAs before and after LA (a). Barrier height distribution histograms Schottky before and after LT (b), (k= 1.06 ¡im, x=10ns, P=3 □ 10-6 J/cm2)

At the same time, the dopant concentration calculated from the CV characteristics remained practically unchanged after laser exposure, which is in accordance with the experimental calculated data on the magnitude of the avalanche breakdown voltage of Schottky barriers, which for a concentration of -l.lEI 1016 cm-3 was 80 V. The reverse current of diode structures in the entire measured voltage range, up to the breakdown voltage, changed slightly after exposure to laser radiation, decreasing by a factor of 1.5-2 with increasing radiation energy density. In this case, the capacitive cutoff voltage increased insignificantly. The noted changes in the parameters of Schottky barriers, as can be seen from the data presented, are observed at relatively low energy densities of laser radiation, at which phase transformations do not yet occur at the metal-semiconductor interface.

Measurements of the current-voltage characteristics carried out after a year of storage of the diode structures at room temperature showed that the parameters of the Schottky barriers on 100 diode cells formed on the n -n+ GaAs structure retained their parameters practically unchanged.

Thus, using laser irradiation of diode structures with a Schottky barrier on a GaAs wafer, by individually processing each diode, it is possible to obtain a high yield of diodes with identical Schottky barrier parameters.

References:

1. Джаманбалин К.К., Дмитриев А.Г. Эволюция барьерного контакта GaAs-Ni в омический при воздействии лазерного излучения. //ФТП. 1990. т.24. №11. с.2024-2028.

2. Воронков В.П., Вяткин А.П., Иванов Б.В., Кулешов С.М., Рухадзе З.А. Вольтамперные характеристики контактов Pd-GaAs подвергнутых лазерному отжигу. //ФТП. 1989. т.23. №3 С.562-564.

3. Бер Б.Я. Дайнова И.Р., Коробов В.А., Кулагина М.М., Прощепа Г.В., Пятаев В.З., Островский А.Ю., Этинбург М.М. Лазерное формирование

омических контактов к арсениду галлия п-типа. //Письма в ЖТФ. 1991. т. 17. №20. С.74-79

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