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Determination of the absorption length of CO
2
and high power diode laser radiation for a high volume alumina-based refractory material
J. Lawrence
*
, Lin Li
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
›
peer-review
17
Citations (Scopus)
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Dive into the research topics of 'Determination of the absorption length of CO
2
and high power diode laser radiation for a high volume alumina-based refractory material'. Together they form a unique fingerprint.
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Engineering & Materials Science
Laser radiation
100%
Power semiconductor diodes
91%
Semiconductor lasers
81%
Refractory materials
72%
Alumina
64%
Laser modes
62%
Laser beams
50%
Lasers
49%
Aluminum oxide
42%
Wavelength
38%
Radiation
17%
Physics & Astronomy
refractory materials
84%
aluminum oxides
53%
diodes
49%
laser beams
47%
refractories
36%
Bouguer law
23%
lasers
21%
wavelengths
15%
continuous radiation
15%
absorptivity
14%
semiconductor lasers
12%
radiation
9%
Chemical Compounds
Laser Radiation
91%
Refractory
68%
Length
39%
Volume
37%
Wavelength
23%
Absorption Coefficient
18%
Wave
15%
Application
5%