Michael Trubetskov
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Explore the profile of Michael Trubetskov including associated specialties, affiliations and a list of published articles.
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26
Citations
96
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Recent Articles
1.
Amochkina T, Trubetskov M
Appl Opt
. 2023 May;
62(7):B63-B72.
PMID: 37132887
The study reports practically important and interesting results on designing dispersive mirrors (DMs) operating in the mid-infrared spectral range from 3 to 18 µm. The admissible domains of the most...
2.
Kruschwitz J, Trubetskov M, Keck J
Appl Opt
. 2023 May;
62(7):B43-B54.
PMID: 37132885
The design problems for the Optical Interference Coating (OIC) 2022 Topical Meeting include black box coatings to reverse engineer and a pair of white-balanced, multi-bandpass filters for three-dimensional cinema projection...
3.
Amotchkina T, Trubetskov M, Janicki V, Sancho-Parramon J
Appl Opt
. 2023 May;
62(7):B35-B42.
PMID: 37132884
A post-production characterization approach based on spectral photometric and ellipsometric data related to a specially prepared set of samples is proposed. Single-layer (SL) and multilayer (ML) sets of samples presenting...
4.
Weigel A, Jacob P, Groters D, Buberl T, Huber M, Trubetskov M, et al.
Opt Express
. 2021 Jul;
29(13):20747-20764.
PMID: 34266157
We demonstrate ultra-rapid electro-optic sampling (EOS) of octave-spanning mid-infrared pulses centered at 9 μm, implemented by mechanically scanning a mirror with a sonotrode resonating at 19 kHz (forward and backward...
5.
Voronina L, Leonardo C, Mueller-Reif J, Geyer P, Huber M, Trubetskov M, et al.
Angew Chem Int Ed Engl
. 2021 Apr;
60(31):17060-17069.
PMID: 33881784
Infrared spectroscopy of liquid biopsies is a time- and cost-effective approach that may advance biomedical diagnostics. However, the molecular nature of disease-related changes of infrared molecular fingerprints (IMFs) remains poorly...
6.
Huber M, Kepesidis K, Voronina L, Bozic M, Trubetskov M, Harbeck N, et al.
Nat Commun
. 2021 Mar;
12(1):1511.
PMID: 33686065
Health state transitions are reflected in characteristic changes in the molecular composition of biofluids. Detecting these changes in parallel, across a broad spectrum of molecular species, could contribute to the...
7.
Ma P, Chen Y, Amotchkina T, Trubetskov M, Pervak V, Li L
Opt Express
. 2020 Oct;
28(20):29230-29238.
PMID: 33114826
High group delay dispersion (GDD) is often required for ultrafast laser applications. To achieve GDD level higher than -10000 fs in a single mirror setting is difficult due to the...
8.
Huber M, Trubetskov M, Hussain S, Schweinberger W, Hofer C, Pupeza I
Anal Chem
. 2020 May;
92(11):7508-7514.
PMID: 32352273
The strong absorption of liquid water in the infrared (IR) molecular fingerprint region constitutes a challenge for applications of vibrational spectroscopy in chemistry, biology, and medicine. While high-power IR laser...
9.
Kruschwitz J, Pervak V, Keck J, Baltz E, Deliwala A, Gerig Z, et al.
Appl Opt
. 2020 Apr;
59(5):A206-A212.
PMID: 32225375
A non-polarizing beam splitter and a light color-mixing challenge were the topics of the design contest held in conjunction with the 2019 Optical Interference Coatings topical meeting of the Optical...
10.
Amotchkina T, Trubetskov M, Hahner D, Pervak V
Appl Opt
. 2020 Apr;
59(5):A40-A47.
PMID: 32225351
Thin films of Ge, ZnS, , and produced using e-beam evaporation on ZnSe and Ge substrates were characterized in the range of 0.4-12 µm. It was found that the Sellmeier...