Mark Gyamfi scite author profile

Mark Gyamfi

5Publications

28Citation Statements Received

81Citation Statements Given

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Affiliations

Laser Zentrum Hannover, Leibniz University Hannover

Publications

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Enhancement of the damage resistance of ultra-fast optics by novel design approaches

et al. 2017

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Dielectric components are essential for laser applications. Chirped mirrors are applied to compress the temporal pulse broadening crucial in the femtosecond regime. However, the design sensitivity and the electric field distribution of chirped mirrors is complex often resulting in low laser induced damage resistances. An approach is presented to increase the damage resistance of pulse compressing mirrors up to 190% in the NIR spectral range. Layers with critical high field intensity of a binary mirror design are substituted by ternary composites and quantized nanolaminates, respectively. The deposition process is improved by an in situ technique monitoring the phase of reflectance.

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Empirical analysis of factors associated with neonatal length of stay in Sunyani, Ghana

Adebanji¹,

Adeyemi²,

Gyamfi³

2015

J. Public Health Epidemiol.

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Postpartum length of stay (LOS) in hospital continues to be a subject of intense discourse and research, especially for mothers of neonates born with low birth weight (LBW). This study investigates the association of total LOS (pre and postpartum) with a range of factors related to geo-demographics, maternal health and pregnancy history. It also provides simple estimates of likely duration of neonatal hospital length of stay based on data from two public hospitals at Sunyani, Brong Ahafo Region, Ghana. The LOS is affected by maternal age, parity (number of children ever born), neonate birth weight, maternal employment and income status. Smoking and consumption of locally brewed alcoholic drinks were also found to significantly prolong the total LOS. The Log-normal model was the best parametric model for total LOS.

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Higher certainty of the laser-induced damage threshold test with a redistributing data treatment

Jensen

Mrohs

Gyamfi

et al. 2015

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As a consequence of its statistical nature, the measurement of the laser-induced damage threshold holds always risks to over- or underestimate the real threshold value. As one of the established measurement procedures, the results of S-on-1 (and 1-on-1) tests outlined in the corresponding ISO standard 21 254 depend on the amount of data points and their distribution over the fluence scale. With the limited space on a test sample as well as the requirements on test site separation and beam sizes, the amount of data from one test is restricted. This paper reports on a way to treat damage test data in order to reduce the statistical error and therefore measurement uncertainty. Three simple assumptions allow for the assignment of one data point to multiple data bins and therefore virtually increase the available data base.

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Improved LIDT values for dielectric dispersive compensating mirrors applying ternary composites

Willemsen

Schlichting

Gyamfi

et al. 2016

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The present contribution is addressed to an improved method to fabricate dielectric dispersive compensating mirrors (CMs) with an increased laser induced damage threshold (LIDT) by the use of ternary composite layers. Taking advantage of a novel in-situ phase monitor system, it is possible to control the sensitive deposition process more precisely. The study is initiated by a design synthesis, to achieve optimum reflection and GDD values for a conventional high low stack (HL) n . Afterwards the field intensity is analyzed, and layers affected by highest electric field intensities are exchanged by ternary composites of Ta x Si y O z . Both designs have similar target specifications whereby one design is using ternary composites and the other one is distinguished by a (HL) n . The first layers of the stack are switched applying in-situ optical broad band monitoring in conjunction with a forward re-optimization algorithm, which also manipulates the layers remaining for deposition at each switching event. To accomplish the demanded GDD-spectra, the last layers are controlled by a novel in-situ white light interferometer operating in the infrared spectral range. Finally the CMs are measured in a 10.000 on 1 procedure according to ISO 21254 applying pulses with a duration of 130 fs at a central wavelength of 775 nm to determine the laser induced damage threshold.

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Ultrafast polychromatic ionization of dielectric solids

Jürgens

Jupé

Gyamfi

et al. 2016

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The modeling of the laser-induced damage processes can be divided into thermal and electronic processes. Especially, electronic damage seems to be well understood. In corresponding models, the damage threshold is linked to the excitation of valence electrons into the conduction band, and often the damage is obtained if a critical density of free electrons is exceeded. For the modeling of the electronic excitation, rate equation models are applied which can vary in the different terms representing different excitation channels. According to the current state of the art, photoionization and avalanche ionization contribute the major part to the ionization process, and consequently the determination of laser-induced damage thresholds is based on the calculation of the respective terms. For the theoretical description of both, well established models are available. For the quantitative calculation of the photoionization, the Keldysh theory is used most frequently, and for the avalanche processes the Drude theory is often applied. Both, Drude and Keldysh theory calculations depend on the laser frequency and use a monochromatic approach. For most applications the monochromatic description matches very well with the experimental findings, but in the range of few-cycle pulses the necessary broadening of the laser emission spectrum leads to high uncertainty for the calculation. In this paper, a novel polychromatic approach is presented including photo-and avalanche ionization as well as the critical electron density. The simulation combines different ionization channels in a Monte-Carlo procedure according to the frequency distribution of the spectrum. The resulting influence on the wavelength and material dependency is discussed in detail for various pulse shapes and pulse durations. The main focus of the investigation is concentrated on the specific characteristics in the dispersion and material dependency of the laser-induced damage threshold respecting the polychromatic characteristics of the ultra-short pulse (USP) laser damage.

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Mark Gyamfi

Enhancement of the damage resistance of ultra-fast optics by novel design approaches

Empirical analysis of factors associated with neonatal length of stay in Sunyani, Ghana

Higher certainty of the laser-induced damage threshold test with a redistributing data treatment

Improved LIDT values for dielectric dispersive compensating mirrors applying ternary composites

Ultrafast polychromatic ionization of dielectric solids

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