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РАЗВИТИЕ РЕНТГЕНОСПЕКТРАЛЬНОГО АНАЛИЗА В Г. НОВОСИБИРСКЕ (Электронно-зондовый микроанализ и рентгенофлуоресцентный анализ с использованием синхротронного излучения)

A. G. Revenko

Аннотация


Рассмотрен вклад Новосибирских рентгенофизиков в становление и развитие двух направлений рентгеноспектрального анализа: электронно-зондового микроанализа и рентгенофлуоресцентного анализа с использованием синхротронного излучения. Исследования по геологической тематике в Институте геологии и геофизики СО АН СССР с применением электронно-зондового микроанализатора MS-46 французской фирмы CAMECA (с 1967 г.) послужили основой разработки методик количественного рентгеновского микроанализа породообразующих минералов, так как методы количественных определений содержаний элементов с малыми атомными номерами в длинноволновой рентгеновской области ещё только зарождались. По мере развития и совершенствования технической базы метода (микрозонды JXA-5A, JEOL, 1975; Камебакс Микро, CAMECA, 1981; JXA-8100, JEOL, 2003; JXA-8230, JEOL, 2016; электронно-вычислительная техника) непрерывно изменялось программное обеспечение по управлению работой приборов и переводу измеренных интенсивностей аналитических линий в содержания элементов. Первые результаты элементного анализа, полученные с использованием синхротронного излучения для возбуждения рентгеновской флуоресценции (РФА-СИ) на ускорительном кольце ВЭПП-3 в Институте ядерной физики СО АН СССР, опубликованы в 1977 г. В последующие годы на станции элементного РФА-СИ проводились исследования образцов различной природы — биологических (биоткани сердца, печени и лёгких, волосы, кости, растения), геологических, объектов окружающей среды (почвы, отложения, аэрозоли и др.), археологических объектов, а также новых технологических материалов.  Разработаны методики определения химических элементов в образцах малой массы (миллиграммы), в частности, в уникальных образцах образцов лунного грунта, биопсийного материала тканей миокарда человека и др. Сканирующее устройство на станции элементного РФА-СИ обеспечило возможность получения информации для реконструкции изменения климата за разные периоды времени — от 100 до 1000 лет. На станции развивается новый неразрушающий метод конфокальной рентгеновской микроскопии для исследования микрообъектов и визуализации распределения химических элементов в протяжённых объектах.

Ключевые слова: электронно-зондовый микроанализ, рентгенофлуоресцентный анализ, синхротронное излучение

DOI: http://dx.doi.org/10.15826/analitika.2021.25.2.006


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Литература


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DOI: https://doi.org/10.15826/analitika.2021.25.2.006

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