Markus Pfeiffer scite author profile

There is strong circumstantial evidence that the shape of atomic nuclei with particular values of Z and N prefers to assume octupole deformation, in which the nucleus is distorted into a pear shape that loses the reflection symmetry of a quadrupole-deformed (rugby ball) shape prevalent in nuclei. Recently, useable intensities of accelerated beams of heavy, radioactive ions have become available at the REX-ISOLDE facility at CERN. This has allowed electric octupole transition strengths, a direct measure of octupole correlations, to be determined for short-lived isotopes of radon and radium expected to be unstable to pear-like distortions. The data are used to discriminate differing theoretical approaches to the description of the octupole phenomena, and also help restrict the choice of candidates for studies of atomic electric-dipole moments, that provide stringent tests of extensions to the Standard Model.

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Making Graphene Nanoribbons Photoluminescent

Senkovskiy

et al. 2017

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We demonstrate the alignment-preserving transfer of parallel graphene nanoribbons (GNRs) onto insulating substrates. The photophysics of such samples is characterized by polarized Raman and photoluminescence (PL) spectroscopies. The Raman scattered light and the PL are polarized along the GNR axis. The Raman cross section as a function of excitation energy has distinct excitonic peaks associated with transitions between the one-dimensional parabolic subbands. We find that the PL of GNRs is intrinsically low but can be strongly enhanced by blue laser irradiation in ambient conditions or hydrogenation in ultrahigh vacuum. These functionalization routes cause the formation of sp defects in GNRs. We demonstrate the laser writing of luminescent patterns in GNR films for maskless lithography by the controlled generation of defects. Our findings set the stage for further exploration of the optical properties of GNRs on insulating substrates and in device geometries.

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A tyrosine aminotransferase involved in tocopherol synthesis in Arabidopsis

et al. 2012

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SUMMARYThe metabolic function of the predicted Arabidopsis tyrosine aminotransferase (TAT) encoded by the At5g53970 gene was studied using two independent knock-out mutants. Gas chromatography-mass spectrometry based metabolic profiling revealed a specific increase in tyrosine levels, supporting the proposed function of At5g53970 as a tyrosine-specific aminotransferase not involved in tyrosine biosynthesis, but rather in utilization of tyrosine for other metabolic pathways. The TAT activity of the At5g53970-encoded protein was verified by complementation of the Escherichia coli tyrosine auxotrophic mutant DL39, and in vitro activity of recombinantly expressed and purified At5g53970 was found to be specific for tyrosine. To investigate the physiological role of At5g53970, the consequences of reduction in tyrosine utilization on metabolic pathways having tyrosine as a substrate were analysed. We found that tocopherols were substantially reduced in the mutants and we conclude that At5g53970 encodes a TAT important for the synthesis of tocopherols in Arabidopsis.

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Nonlinear absorption in Au films: Role of thermal effects

et al. 2007

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The effective nonlinear optical absorption coefficient ␤ eff is measured for 20-nm-thick Au films at 630 nm as a function of pulse width. The z-scan measurements show that ␤ eff increases from 6.8ϫ 10 −7 to 6.7ϫ 10 −5 cm W −1 as the pulse width is varied from 0.1 to 5.8 ps. To help interpret this ϳ100ϫ increase, differential transmission and reflectivity measurements are performed using 775 nm pump and 630 nm probe pulses. All experiments are simulated with a two-temperature model for electrons and lattice. The pulse width dependence of ␤ eff is consistent with thermal smearing of d-band to conduction-band transitions, with ␤ eff arising from changes in the linear ͑Im ͑1͒ ͒ absorption coefficient.

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Enhancing the Optical Excitation Efficiency of a Single Self-Assembled Quantum Dot with a Plasmonic Nanoantenna

et al. 2010

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Markus Pfeiffer

Studies of pear-shaped nuclei using accelerated radioactive beams

Making Graphene Nanoribbons Photoluminescent

A tyrosine aminotransferase involved in tocopherol synthesis in Arabidopsis

Nonlinear absorption in Au films: Role of thermal effects

Enhancing the Optical Excitation Efficiency of a Single Self-Assembled Quantum Dot with a Plasmonic Nanoantenna

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