Х. Баззал scite author profile

Х. Баззал

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Belarusian State University

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INVESTIGATION OF THE CHANNEL-FORM EFFECT ON THE FORMATION PROCESSES OF AlN AND AlO NANOCLUSTERS IN PLASMA WHEN ALUMINUM TARGET IS SUBJECTED TO SERIES OF DOUBLE LASER PULSES IN AIR

Баззал¹,

Voropay²,

Zajogin³

et al. 2019

pcascnn

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Рецензирование статей осуществляется на основании Положения о рецензировании статей и материалов для опубликования в Межвузовском сборнике научных трудов «Физико-химические аспекты изучения кластеров, наноструктур и наноматериалов». Официальный сайт издания в сети Интернет: https://www.physchemaspects.ru Ф50 Физико-химические аспекты изучения кластеров, наноструктур и наноматериалов [Текст].  Тверь: Твер. гос. ун-т, 2019.  Вып. 11.  680 с. Зарегистрирован Федеральной службой по надзору в сфере связи, информационных технологий и массовых коммуникаций, свидетельство о регистрации СМИ ПИ № ФС 7747789 от 13.12.2011. Издание составлено из оригинальных статей, кратких сообщений и обзоров теоретического и экспериментального характера, отражающих результаты исследований в области изучения физико-химических процессов с участием кластеров, наноструктур и наноматериалов физики, включая межфазные явления и нанотермодинамику. Сборник предназначен для научных и инженерно-технических работников, преподавателей ВУЗов, студентов и аспирантов. Издание подготовлено на кафедре общей физики Тверского государственного университета. Переводное название: Physical and chemical aspects of the study of clusters, nanostructures and nanomaterials Транслитерация названия: Fiziko-himičeskie aspekty izučeniâ klasterov, nanostruktur i nanomaterialov

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Formation of Oxidized Aluminum Nanopowders by Exposing Aluminum to a Series of Double Laser Pulses in Air

et al. 2021

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The effects of the interval between pulses and the number of double laser pulses on the component and charge composition of the laser plasma formed by these pulses acting on an AD1 aluminum alloy target (LSS-1 spectrometer) are studied. It is shown that the concentration of Al ions and the products of their interaction with atmospheric O 2 and N 2 increase by several orders of magnitude if an interval between pulses of 7-16 μs rather than a zero interval is used. Formation of Al ions is studied as a function of pulse energy with an interval between pulses of 10 μs. The strongest lines for Al III ions are observed for a small number (~15) consecutive double pulses in series and a pulse energy of 53 mJ. The intensity of the lines for Al III ions decreases by about fi ve times if the number of pulses in the series increases above a certain level (10-20) because of their active interaction with atmospheric molecules and atoms at the exit of the micronozzle when the channel shape is changed. Al nanopowders coated with a layer of aluminum oxide produced by irradiating an Al target with a series of 15 double laser pulses per point have sizes of mainly 50-60 μm.

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Х. Баззал

INVESTIGATION OF THE CHANNEL-FORM EFFECT ON THE FORMATION PROCESSES OF AlN AND AlO NANOCLUSTERS IN PLASMA WHEN ALUMINUM TARGET IS SUBJECTED TO SERIES OF DOUBLE LASER PULSES IN AIR

Formation of Oxidized Aluminum Nanopowders by Exposing Aluminum to a Series of Double Laser Pulses in Air

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