The NAIRU - Concept: A Few Remarks

This note gives a brief survey of main theoretical and empirical issues with respect to the NAIRU concept. According to modern labour market literature NAIRU is defined as the rate of unemployment at which inflation stabilizes in the absence of any wage-price surprises. Conventional thinking about the equilibrium unemployment rate assumes that in the long run NAIRU is determined solely by supply side factors of the labour market. We show that quite complex adjustment dynamics may arise even in simple log-linear wage-price models. Furthermore we provide a survey on a number of "hysteresis-mechanisms" which could lead to permanent shifts of equilibrium unemployment over time, implying that an unique long run NAIRU may not even exist. In addition to theoretical issues we refer to two serious problems which might arise with empirical applications of the NAIRU concept. First various empirical studies suggest that results highly depend on model specifications. Second a considerable amount of statistical imprecision is inherent in the results obtained from empirical estimates. For these reasons, we argue, that policy conclusions drawn from the NAIRU concept must be judged with utmost care, particularly since in many countries a number of labour market measures as well as monetary policy are based on this concept.NAIRU, Hysteresis Mechanisms

Punctured Trellis-Coded Modulation

In classic trellis-coded modulation (TCM) signal constellations of twice the cardinality are applied when compared to an uncoded transmission enabling transmission of one bit of redundancy per PAM-symbol, i.e., rates of $\frac{K}{K+1}$ when $2^{K+1}$ denotes the cardinality of the signal constellation. In order to support different rates, multi-dimensional (i.e., $\mathcal{D}$-dimensional) constellations had been proposed by means of combining subsequent one- or two-dimensional modulation steps, resulting in TCM-schemes with $\frac{1}{\mathcal{D}}$ bit redundancy per real dimension. In contrast, in this paper we propose to perform rate adjustment for TCM by means of puncturing the convolutional code (CC) on which a TCM-scheme is based on. It is shown, that due to the nontrivial mapping of the output symbols of the CC to signal points in the case of puncturing, a modification of the corresponding Viterbi-decoder algorithm and an optimization of the CC and the puncturing scheme are necessary.Comment: 5 pages, 10 figures, submitted to IEEE International Symposium on Information Theory 2013 (ISIT

Local spin valve effect in lateral (Ga,Mn)As/GaAs spin Esaki diode devices

We report on a local spin valve effect observed unambiguously in lateral all-semiconductor all-electrical spin injection devices, employing p+-(Ga,Mn)As/n+-GaAs Esaki diode structures as spin aligning contacts. We discuss the observed local spin-valve signal as a result of interplay between spin-transport-related contribution and tunneling anisotropic magnetoresistance of magnetic contacts. The magnitude of the spin-related magnetoresistance change is equal to 30 Ohm which is twice the magnitude of the measured non-local signal.Comment: submitted to Appl. Phys. Let

Tunneling Anisotropic Spin Polarization in lateral (Ga,Mn)As/GaAs spin Esaki diode devices

We report here on anisotropy of spin polarization obtained in lateral all-semiconductor all-electrical spin injection devices, employing $p^{+}-$(Ga,Mn)As/$n^{+}-$GaAs Esaki diode structures as spin aligning contacts, resulting from the dependence of the efficiency of spin tunneling on the orientation of spins with respect to different crystallographic directions. We observed an in-plane anisotropy of $~8$ in case of spins oriented either along $[1\bar{1}0]$ or $[110]$ directions and $~25$ anisotropy between in-plane and perpendicular-to-plane orientation of spins.Comment: 9 pages, 3 figure

Analysis of possibilities to increase oil recovery with the use of nitrogen in the context of deep oil deposits of the Dnipro-Donetsk oil-and-gas Ukrainian province

Purpose is to increase oil recovery of deep oil deposits of the Dnipro-Donetsk oil-and-gas Ukrainian province with the use of nitrogen. Methods. Experiments, intended to residual oil displacement with the use of different driving agents, involved laboratory modeling of the process when a seam was simulated as such being close maximally to a real seam and samples of formation fluids were applied. The experiments, which materialized equilibrium displacement (without mass transfer), used seam models developed from cores of V-19n seam (Perekopivske deposit). 43 core samples were analyzed with 3.3 – 226.0·10-3 µm2 permeability. Findings. Characteristics and applicability of nitrogen and flue gas to increase oil recovery have been analyzed. Theoretic prerequisites of the mechanism, aimed at oil displacement using nitrogen and flue gases, have been formulated. Results of the laboratory experiments of oil displacement by means of nitrogen within a porous environment have helped determine that minimum pressure of mutual oil and nitrogen dissolution is 36.0 – 38.0 MPa. In terms of mutual mixing of agents at 110 – 112°С temperature, 36.4 МPа gas injection pressure, and nitrogen pumping velocity being 1 cm3 per 40 minutes, oil displacement ratio achieved 0.76 – 0.78. Originality. For the first time, parameters of mixable oil displacement using nitrogen for the conditions of deep oil deposits of the Dnipro-Donetsk petroleum province in Ukraine have been determined. Efficiency of mixable nitrogen displacement to compare with water displacement and nitrogen displacement under equilibrium conditions has been proved. Practical implications. The advanced technique of nitrogen use to improve oil recovery in the context of deep oil deposits has been proposed. The technique is applicable to extract residual oil from the depleted deposits.Мета. Підвищення нафтовилучення глибоких нафтових родовищ Дніпровсько-Донецької нафтогазоносної провінції України з використанням азоту. Методика. Експериментальні дослідження витіснення залишкової нафти різними витіснювальними агентами проводили шляхом лабораторного моделювання процесу зі створенням зразків пласта, максимально наближених до реального пласту, і використанням зразків пластових флюїдів. В експериментах, в яких реалізувалося рівноважне витіснення (без масопереносу), використовувалися моделі пласта, які споруджувалися з кернового матеріалу пласта В-19н Перекоповського родовища. Було досліджено 43 зразки керна, проникність сягала в межах 3.3 – 226.0·10-3 мкм2. Результати. Проаналізовано особливості та умови застосування азоту й димових газів для підвищення нафтовіддачі пластів. Сформульовано теоретичні передумови механізму витіснення нафти з пласта азотом і димовими газами. Встановлено за результатами лабораторних досліджень витіснення нафти азотом у пористому середовищі мінімальний тиск взаємного розчинення нафти та азоту, котрий становить 36.0 – 38.0 МПа. В умовах взаємного змішування агентів при температурі 110 – 112°С, тиску нагнітання газу 36.4 МПа і швидкості нагнітання азоту 1 см3 за 40 хвилин коефіцієнт витіснення нафти досягав величини 0.76 – 0.78. Наукова новизна. Вперше встановлені параметри змішуваного витіснення нафти азотом для умов глибоких нафтових родовищ Дніпровсько-Донецької нафтогазоносної провінції України. Доведено високу ефективність змішуваного витіснення азотом в порівнянні з витісненням водою і витісненням азотом при рівноважних умовах. Практична значимість. Запропоновано удосконалену технологію використання азоту для підвищення нафтовилучення глибоких нафтових родовищ, яка може бути використана для виснажених нафтових родовищ.Цель. Увеличение нефтеотдачи глубокозалегающих нефтяных месторождений Днепровско-Донецкой нефтегазоносной провинции Украины с использованием азота. Методика. Экспериментальные исследования вытеснения остаточной нефти разными вытесняющими агентами проводили путем лабораторного моделирования процесса с созданием образцов пласта, максимально приближенных к реальному пласту, и использованием образцов пластовых флюидов. В экспериментах, в которых реализовалось равновесное вытеснение (без масопереноса), использовались модели пласта, которые сооружались из кернового материала пласта В-19н Перекоповского месторождения. Были исследованы 43 образца керна, проницаемость находилась в пределах 3.3 – 226.0·10-3 мкм2. Результаты. Проанализированы особенности и условия применения азота и дымовых газов для повышения нефтеотдачи пластов. Сформулированы теоретические предпосылки механизма вытеснения нефти из пласта азотом и дымовыми газами. Установлено по результатам лабораторных исследований вытеснения нефти азотом в пористой среде минимальное давление взаимного растворения нефти и азота, которое составляет 36.0 – 38.0 МПа. В условиях взаимного смешивания агентов при температуре 110 – 112°С, давлении нагнетания газа 36.4 МПа и скорости нагнетания азота 1 см3 за 40 минут коэффициент вытеснения нефти достигал величины 0.76 – 0.78. Научная новизна. Впервые установлены параметры смешиваемого вытеснения нефти азотом для условий глубокозалегающих нефтяных месторождений Днепровско-Донецкой нефтегазоносной провинции Украины. Доказана высокая эффективность смешиваемого вытеснения азотом по сравнению с вытеснением водой и вытеснением азотом при равновесных условиях. Практическая значимость. Предложена усовершенствованная технология использования азота для повышения нефтеотдачи глубокозалегающих нефтяных месторождений, которая может быть использована для истощенных нефтяных месторождений.The research results have been obtained with no support in the form of grants of projects. The authors express thanks to PJSC “Ukrnafta” for the possibility to carry out the experiments, which findings are represented by the paper, on the basis of Scientific-Research and Design Institute PJSC “Ukrnafta”

Multi-Eigenmode Control for Improved Tracking Speed in Multifrequency Atomic Force Microscopy

Die Sensoren von Rasterkraftmikroskopen sind mechanische Schwinger, die zur zeitgleichen Aufnahmevon Topographie und Materialeigenschaften genutzt werden können. Besonders wichtig sinddie Bildrastergeschwindigkeit und Kraftsensitivität, die oft einen Kompromiss benötigen. In dieserArbeit wird ein neuartiger Multi-Eigenmode Kompensator basierend auf einem Zustandsschätzervorgestellt, der die dynamischen Eigenschaften jeder Cantilever-Resonanz unabhängig voneinandermodifizieren kann. Dargelegt wird die Modellierung, Kompensator-Design und Implementierungsstrategiein ein digitales System. Als Erstes wird der Kompensator zur Modifikation desQ Faktors einzelner Eigenmoden genutzt. Somit kann die Abbildungsrate um das 20-fache erhöhtwerden. Die Modifikation der natürlichen Frequenz erlaubt die Abbildung von Proben mitvollständig verschobenen Resonanzen. Moderne Mehrfachfrequenz-Abbildungsverfahren nutzenhöheren Eigenmoden, um bessere Abbildungsraten und Materialsensitivitäten zu erreichen. Beieiner Methode werden die angeregten höheren Harmonischen extrahiert, die beim Rastern einerOberfläche im Fourier-Spektrum entstehen. Eine andere Methode regt die erste und höhere Eigenmodengleichzeitig an. In Experimenten wird der Kompensator in Kombination mit beiden Abbildungsverfahrengenutzt, um speziell den Q Faktor der ersten beiden transversalen Eigenmoden gleichzeitigzu beeinflussen. Experimente zeigen, dass beste Abbildungsraten und Materialkontrastemit geringen Q Faktoren in der ersten und hohen Q Faktoren in der zweiten Eigenmode erreichtwerden. Eine Erweiterung des Kompensators erlaubt die Hochgeschwindigkeits-Demodulationvon Cantilever-Amplituden ohne Einsatz eines Lock-in Verstärkers, was anhand von Abbildungenmit der ersten Eigenmode gezeigt wird. Eine weitere Möglichkeit zur Verbesserung des Materialkontrastesbasiert auf der strukturellen Modifikation des Cantilevers. Mit Hilfe einer Ionenfeinstrahlanlagewird Material an bestimmten Bereichen des Cantilevers entfernt, so dass die erste undhöheren Eigenmoden aufeinander abgestimmt werden. Die Bestimmung von Form und Ort derMaterialentfernung wird entweder durch Simulationen im Voraus oder mit einem in situ Ansatzerreicht. Die extrahierten höheren harmonischen Signale des harmonischen Cantilevers zeigen eindeutlich verstärktes Signal von bis zu 10 % im Vergleich zur ersten Resonanz.Atomic Force Microscope probes are mechanical beams that can be used to simultaneously maptopography and material properties. In particular the imaging speed and force sensitivity aremajor concerns that often require a trade-off approach. In this work, a novel estimator basedmulti-eigenmode compensator is introduced to modify the dynamics of each resonance independently.Modeling, compensator design, implementation strategy in a digital system and validationin experiments will be presented. A single-eigenmode version of the compensator is used to modifythe Q factor of the first three eigenmodes separately. Using higher eigenmodes in combinationwith a modified Q factor leads to a 20-fold increase in image acquisition rates. The modificationof the natural frequency (F control) allows imaging at resonance frequencies that are not naturalto the cantilever. The emerging multifrequency Atomic Force Microscopy utilizes higher eigenmodesto improve imaging speed and force sensitivity concurrently. One method actuates the firsteigenmode for topography imaging and records the excited higher harmonics to map a sample’snanomechanical properties. To enhance the higher frequencies’ response two or more eigenmodesare actuated simultaneously, where the higher eigenmodes are used to quantify the nanomechanics.In experiments, the compensator is used to specifically modify the Q factors of the cantilever’sfirst two transversal eigenmodes concurrently in both imaging schemes. The experiments indicatemost enhanced material contrast and imaging rate with low Q factors in the first eigenmode andhigh Q factors in the higher eigenmode. An extension of the compensator allows for a high speedLock-in amplifier free amplitude demodulation, which is used for topography imaging with the firstresonance. A different technique for improving material property sensitivity is presented basedon structural modifications of the cantilever. Focused Ion Beam milling is used to remove massfrom specific areas in the cantilever such that the first and higher eigenmodes are tuned towardseach other. The shape and location of mass removal is determined either by simulation beforehandor through an in-situ approach. Higher harmonics of the harmonic active cantilevers indicate asignificant response of up to 10% in respect to the first resonance/harmonic

Turkish-German innovation networks in the European research landscape

Research networks are regarded as channels for knowledge creation and diffusion and are thus essential for the development and integration of economies. In this paper we have a look at the long Turkish-German-migration history which should offer opportunities for both countries to benefit from brain circulation, transnational entrepreneurs and research networks. The present paper examines the structure of research networks of the European Framework Programmes (FP) that are established by joint participation of organizations in research projects, in particular German research organizations with Turkish participants in FP5 to FP7 in the knowledge-intensive technology fields ICT, Biotechnology and Nanoscience. A better understanding of these networks allows for improving the design of research policies at national levels as well as at the EU level. The empirical examination of network properties reveals that the diverse networks show a range of similarities in the three technology fields in each FP such as the small-world properties. Moreover, our findings show that German actors play a specific role in most examined research networks with Turkish participation

Reduced Complexity Super-Trellis Decoding for Convolutionally Encoded Transmission Over ISI-Channels

In this paper we propose a matched encoding (ME) scheme for convolutionally encoded transmission over intersymbol interference (usually called ISI) channels. A novel trellis description enables to perform equalization and decoding jointly, i.e., enables efficient super-trellis decoding. By means of this matched non-linear trellis description we can significantly reduce the number of states needed for the receiver-side Viterbi algorithm to perform maximum-likelihood sequence estimation. Further complexity reduction is achieved using the concept of reduced-state sequence estimation.Comment: 6 pages, 8 figures, accepted for ICNC'13. (see also: arXiv:1205.7031