Н.С. Васильев, А.Н. Морозов
8
ЛИТЕРАТУРА
[1]
Amme M., Renker B., Schmid B., Feth M.P., Bertagnolli H., Döbelin W. Ra-
man Microspectrometric Identification of Corrosion products Formed on uo2
Nuclear Fuel During Leaching Experiments.
Journal of Nuclear Materials
,
306(2–3): 202–212, 2002.
[2]
Clark R.J.H., Curri M.L. The Identification by Raman Microscopy and x-ray
Diffraction of Iron-Oxide Pigments and of the Red Pigments found on Italian
Pottery Fragments.
Journal of Molecular Structure
, 440(1–3): 105–111, 1998.
[3]
Hwang J., Choi N., Park A., Park J., Chung J.H., Baek S., Cho S.G., Baek S.,
Choo J. Fast and Sensitive Recognition of Various Explosive compounds using
Raman Spectroscopy and Principal Component Analysis.
Journal of Molecular
Structure
, 1039: 130–136, 2013.
[4]
Lipatov E.I., Avdeev S.M., Tarasenko V.F. Photoluminescence and Optical
Transmission of Diamond and its Imitators.
Journal of Luminescence
, 130(11):
2106 – 2112, 2010.
[5]
Mendoza Cuevas A., Perez Gravie H. Portable Energy Dispersive x-ray Fluores-
cence and x-ray Diffraction and Radiography System for Archaeometry.
Nuclear
Instruments and Methods in Physics Research Section A: Accelerators, Spectrom-
eters, Detectors and Associated Equipment
, 633(1): 72 – 78, 2011.
[6]
Kusch P., Obst V., Schroeder-Obst D., Fink W., Knupp G. and Steinhaus J. Ap-
plication of Pyrolysis – Gas Chromatography/Mass Spectrometry for the Identi-
fication of Polymeric Materials in Failure Analysis in the Automotive Industry.
Engineering
Failure
Analysis
,
2013,
issn:
1350–6307,
doi:
2012.12.005.
[7]
Ferarya S., Augera J., Toucheb A. Trace Identification Of Plant Substances by
Combining Gas Chromatography-mass Spectrometry and Direct Deposition Gas
Chromatography-Fourier Transform Infrared Spectrometry.
Talanta
, 43(3):
349–357, 1996.
[8]
Muhammad A. H., Guenther S., Stefan M., Guenther K.B. Identification of
Amino Acids by Material Enhanced Laser Desorption/Ionisation Mass Spec-
trometry (Meldi-ms) in Positive- and Negative-ion Mode.
International Journal
of Mass Spectrometry
, 279(1): 15–24, 2009.
[9]
Cai Sheng Wua, Zhi Xin Jiaa, Bao Ming Ningc, Jin Lan Zhanga, Song Wub.
Separation and Identification Of Moxifloxacin Impuritiesin Drug Substance by
High-Performance Liquid Chromatography Coupledwith Ultraviolet Detection
and Fourier Transform Ion Cyclotron Resonancemass Spectrometry.
Chinese
Chemical Letters
, 23(10): 1185–1188, 2012.
[10] Gorchakovskii S.N., Ivlev O.A., Kochikov I.V., Maznichko A.A., Morozov A.N.,
Palatov Yu.A., Svetlichnyi S.I., Tabalin S.E. Compact Fourier Spectrometer for
Remote Analysis of gaseous Media.
Journal of Optical Technology
(
A Transla-
tion of Opticheskii Zhurnal
), 65(6): 510–512, 1998.
[11] Бойко А.Ю., Григорьев А.А., Дворук С.К., Корниенко В.Н., Кочиков И.В.,
Лельков М.В., Мацюк Г.В., Морозов А.Н., Павлов А.Ю.,Светличный С.И.,
Табалин С.Е., Шишкин Г.В., Шлыгин П.Е. Проблема идентификации и
определения концентраций загрязняющих веществ с помощью фурье-
спектрорадиометра.
Вестник МГТУ им. Н.Э. Баумана. Сер. Естественные
науки
, (1): 26, 2004.
[12] Кочиков И.В., Морозов А.Н., Светличный С.И., Фуфурин И.Л. Рас-
познавание веществ в открытой атмосфере по единичной интер-
ферограмме фурье-спектрорадиометра.
Оптика и спектроскопия
, 106(5):
743–749, 2009.
