840 research outputs found
Finite Temperature and Density Effects in Planar Q.E.D
The behavior of finite temperature planar electrodynamics is investigated. We
calculate the static as well as dynamic characteristic functions using real
time formalism. The temperature and density dependence of dielectric and
permeability functions, plasmon frequencies and their relation to the screening
length is determined. The radiative correction to the fermion mass is also
calculated. We also calculate the temperature dependence of the electron
(anyon) magnetic moment. Our results for the gyromagnetic ratio go smoothly to
the known result at zero temperature, , in accordance with the general
expectation.Comment: 24 pages, LaTe
Integrasi Fingerprint System dengan Real TIME Absensi Dosen Berbasis Web (Studi Kasus : STMIK Pontianak)
Penggunaan fingerprint system dalam mengelola kehadiran dosen mengajar di kelas dirasa belum optimal karena tidak bisa memberikan informasi secara real time bagi Ketua program studi dan mahasiswa. Informasi yang didapat dari mesin absensi masih diperlukan pengolahan lebih lanjut agar menjadi informasi yang bernilai dalam proses pengambilan keputusan. Pengembangan sistem informasi absensi dosen secara real time merupakan sebuah inovasi dalam upaya memberikan informasi yang akurat dan cepat terutama bagi kalangan mahasiswa yang ingin masuk kelas. Integrasi fingerprint system dengan real time absensi dosen dimaksudkan untuk memberikan keakuratan data dimana setiapkali dosen melakukan pendeteksian sidik jari, sistem akan menampilkan status dosen masuk atau keluar kelas. Penelitian ini bersifat studi kasus dengan melibatkan dosen yang memiliki jadwal mengajar pada semester berjalan. Dalam kegiatan pengujian, disediakan mesin fingerprint sebagai pendeteksi sidik jari dan aplikasi monitoring sebagai sistem informasi yang menampilkan kehadiran dosen pada layar monitor dan layar televisi
Perancangan dan Implementasi Perangkat Lunak Proxy Tunnel dengan Enkripsi Kunci Simetrisasimetris untuk Manipulasi Paket Data
S: The authors conducted a study on wiretapping in computer networks because of it is very disturbing security and comfort in the surf. Therefore the writer create a proxy tunnel software with symmetric and asymmetric encryption as a security agent that encrypts data communications conducted. Forms of research that the author did was experimental data collection techniques onegroup posttest-pretest, the authors study variable is the security of data packets transmitted between website and browser. Design method used is the Extreme Programming with 4 ways to apply the practical development of XP, namely coding, testing, listening and designing. The result is a software design software called "Crypto Tunnel Proxy", according to the function of encryption, tunneling and proxy. The software engineering author uses Visual Basic 6.0 and uses 2 types of encryption, namely symmetrical and asymmetrical. The authors also apply the hash function as a fingerprint or fingerptint of keys that are sent. This application can improve security in computer networks. By encrypting all data packets between the browser and the website are symmetrical and asymmetrical. Tests conducted with several commonly used browsers
A comparison between pulsed and CW laser annealing for solar cell applications
The application of laser processing in solar cell fabrication is considered. Specific emphasis is placed on a process developed for the fabrication of a 16.6% silicon solar cell using pulsed laser processing. Results are presented which compare pulsed laser annealing with CW laser annealing in solar cell fabrication
Amplitude Zeroes in Collinear Processes or What Is Left from a Factorizable 2d Model in Higher Dimensions
We show that for collinear processes, i.e. processes where the incoming and
outgoing momenta are aligned along the same line, the S-matrix of the tree
level 2+1 dimensional Thirring model factorizes: any S - matrix element is a
product of elements. In particular this means nullification of
all collinear amplitudes for .Comment: latex , 8 pp., 2 fig. not include
Quantum versus classical phase-locking transition in a driven-chirped oscillator
Classical and quantum-mechanical phase locking transition in a nonlinear
oscillator driven by a chirped frequency perturbation is discussed. Different
limits are analyzed in terms of the dimensionless parameters and
( and being the driving amplitude,
the frequency chirp rate, the nonlinearity parameter and the linear frequency
of the oscillator). It is shown that for , the passage
through the linear resonance for above a threshold yields classical
autoresonance (AR) in the system, even when starting in a quantum ground state.
In contrast, for , the transition involves
quantum-mechanical energy ladder climbing (LC). The threshold for the
phase-locking transition and its width in in both AR and LC limits are
calculated. The theoretical results are tested by solving the Schrodinger
equation in the energy basis and illustrated via the Wigner function in phase
space
A frictionless microswimmer
We investigate the self-locomotion of an elongated microswimmer by virtue of
the unidirectional tangential surface treadmilling. We show that the propulsion
could be almost frictionless, as the microswimmer is propelled forward with the
speed of the backward surface motion, i.e. it moves throughout an almost
quiescent fluid. We investigate this swimming technique using the special
spheroidal coordinates and also find an explicit closed-form optimal solution
for a two-dimensional treadmiler via complex-variable techniques.Comment: 6 pages, 4 figure
MORPH: A Reference Architecture for Configuration and Behaviour Self-Adaptation
An architectural approach to self-adaptive systems involves runtime change of
system configuration (i.e., the system's components, their bindings and
operational parameters) and behaviour update (i.e., component orchestration).
Thus, dynamic reconfiguration and discrete event control theory are at the
heart of architectural adaptation. Although controlling configuration and
behaviour at runtime has been discussed and applied to architectural
adaptation, architectures for self-adaptive systems often compound these two
aspects reducing the potential for adaptability. In this paper we propose a
reference architecture that allows for coordinated yet transparent and
independent adaptation of system configuration and behaviour
Quantitative proteomics of rat livers shows that unrestricted feeding is stressful for proteostasis with implications on life span.
Studies in young mammals on the molecular effects of food restriction leading to prolong adult life are scares. Here, we used high-throughput quantitative proteomic analysis of whole rat livers to address the molecular basis for growth arrest and the apparent life-prolonging phenotype of the food restriction regimen. Over 1800 common proteins were significantly quantified in livers of ad libitum, restriction- and re-fed rats, which summed up into 92% of the total protein mass of the cells. Compared to restriction, ad libitum cells contained significantly less mitochondrial catabolic enzymes and more cytosolic and ER HSP90 and HSP70 chaperones, which are hallmarks of heat- and chemically-stressed tissues. Following re-feeding, levels of HSPs nearly reached ad libitum levels. The quantitative and qualitative protein values indicated that the restriction regimen was a least stressful condition that used minimal amounts of HSP-chaperones to maintain optimal protein homeostasis and sustain optimal life span. In contrast, the elevated levels of HSP-chaperones in ad libitum tissues were characteristic of a chronic stress, which in the long term could lead to early aging and shorter life span
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