245 research outputs found
Suppression of quantum chaos in a quantum computer hardware
We present numerical and analytical studies of a quantum computer proposed by
the Yamamoto group in Phys. Rev. Lett. 89, 017901 (2002). The stable and
quantum chaos regimes in the quantum computer hardware are identified as a
function of magnetic field gradient and dipole-dipole couplings between qubits
on a square lattice. It is shown that a strong magnetic field gradient leads to
suppression of quantum chaos.Comment: 8 pages, 8 figures, research done at
http://www.quantware.ups-tlse.fr
Composition law for polarizers
The polarization process when polarizers act on an optical field is studied.
We give examples for two kinds of polarizers. The first kind presents an
anisotropic absorption - as in a polaroid film - and the second one is based on
total reflection at the interface with a birefringent medium. Using the Stokes
vector representation, we determine explicitly the trajectories of the wave
light polarization during the polarization process. We find that such
trajectories are not always geodesics of the Poincar\'e sphere as it is usually
thought. Using the analogy between light polarization and special relativity,
we find that the action of successive polarizers on the light wave polarization
is equivalent to the action of a single resulting polarizer followed by a
rotation achieved for example by a device with optical activity. We find a
composition law for polarizers similar to the composition law for noncollinear
velocities in special relativity. We define an angle equivalent to the
relativistic Wigner angle which can be used to quantify the quality of two
composed polarizers.Comment: 23 pages, 9 figures, accepted for publication in Physical Review
Decoherence by a chaotic many-spin bath
We numerically investigate decoherence of a two-spin system (central system)
by a bath of many spins 1/2. By carefully adjusting parameters, the dynamical
regime of the bath has been varied from quantum chaos to regular, while all
other dynamical characteristics have been kept practically intact. We
explicitly demonstrate that for a many-body quantum bath, the onset of quantum
chaos leads to significantly faster and stronger decoherence compared to an
equivalent non-chaotic bath. Moreover, the non-diagonal elements of the
system's density matrix decay differently for chaotic and non-chaotic baths.
Therefore, knowledge of the basic parameters of the bath (strength of the
system-bath interaction, bath's spectral density of states) is not always
sufficient, and much finer details of the bath's dynamics can strongly affect
the decoherence process.Comment: 4 pages, RevTeX, 5 eps figure
Phase of bi-particle localized states for the Cooper problem in two-dimensional disordered systems
The Cooper problem is studied numerically for the Anderson model with
disorder in two-dimensions. It is shown that the attractive Hubbard interaction
creates a phase of bi-particle localized states in the regime where
non-interacting states are delocalized. This phase cannot be obtained in the
mean-field approximation and the pair coupling energy is strongly enhanced in
this regime. The effects of magnetic field are studied and it is shown that
under certain conditions they lead to delocalization.Comment: revtex, 7 pages, 8 figure
Cooper problem in the vicinity of Anderson transition
We study numerically the ground state properties of the Cooper problem in the
three-dimensional Anderson model. It is shown that attractive interaction
creates localized pairs in the metallic noninteracting phase. This localization
is destroyed at sufficiently weak disorder. The phase diagram for the
delocalization transition in the presence of disorder and interaction is
determined.Comment: revtex, 4 pages, 4 figure
Insulin glycation by methylglyoxal results in native-like aggregation and inhibition of fibril formation
<p>Abstract</p> <p>Background</p> <p>Insulin is a hormone that regulates blood glucose homeostasis and is a central protein in a medical condition termed insulin injection amyloidosis. It is intimately associated with glycaemia and is vulnerable to glycation by glucose and other highly reactive carbonyls like methylglyoxal, especially in diabetic conditions. Protein glycation is involved in structure and stability changes that impair protein functionality, and is associated with several human diseases, such as diabetes and neurodegenerative diseases like Alzheimer's disease, Parkinson's disease and Familiar Amyloidotic Polyneuropathy. In the present work, methylglyoxal was investigated for their effects on the structure, stability and fibril formation of insulin.</p> <p>Results</p> <p>Methylglyoxal was found to induce the formation of insulin native-like aggregates and reduce protein fibrillation by blocking the formation of the seeding <it>nuclei</it>. Equilibrium-unfolding experiments using chaotropic agents showed that glycated insulin has a small conformational stability and a weaker dependence on denaturant concentration (smaller m-value). Our observations suggest that methylglyoxal modification of insulin leads to a less compact and less stable structure that may be associated to an increased protein dynamics.</p> <p>Conclusions</p> <p>We propose that higher dynamics in glycated insulin could prevent the formation of the rigid cross-β core structure found in amyloid fibrils, thereby contributing to the reduction in the ability to form fibrils and to the population of different aggregation pathways like the formation of native-like aggregates.</p
2-Chloro-6,6-dimethyl-5,6-dihydroindazolo[2,3-c]quinazoline
Two independent but virtually identical molecules comprise the asymmetric unit of the title compound, C16H14ClN3. The molecules have a slightly curved shape owing to puckering in the six-membered C4N2 ring; the respective dihedral angles formed between the benzene rings are 12.64 (7) and 11.72 (7)°. In the crystal, layers sustained by a combination of N—H⋯N hydrogen bonding as well as C—H⋯N and C—H⋯π contacts are formed; these stack along [011] and are connected by further C—H⋯π contacts
Spontaneous B-cell lymphoma in hamster
Durante estudo anatomopatológico, incluindo imunoistoquímica, sobre pancreatite chagásica, experimentalmente induzida em hamsters machos, não-isogênicos, com quatro meses de idade, pesando 107,8 ± 10,9g, infiltração por linfoma foi observada em um animalcontrole normal, com 15 meses de idade. A neoplasia foi notada na ocasião da necropsia, 330 dias após o início do experimento. Lirifoma similar não foi achado nos demais controles normais (n=73), nem nos hamsters do grupo infectado, pareados para peso e idade (n=94). As alterações histopatológicas e imunoistoquímicas foram consistentes com linfoma difuso, não-Hodgkin, de grandes céiulas-B; porém, a hipótese de eventual origem leucêmica não foi inteiramente excluída. Linfomas experimentalmente induzidos têm sido relatados em animais de laboratório; entretanto, relatos de caso de linfoma, ocorrendo espontaneamente em hamsters, não têm sido freqüentes. No presente caso, o desenvolvimento da doença poderia ter alguma relação com o processo de envelhecimento.During anatomopathologic study, including immunohistochemistry, about chagasic pancreatitis experimentally induced in four month aged male non-isogenic hamsters, weighing 107.8 ± 10.9g, lymphoma infiltration was observed in a 15 month-aged normal control animal. The neoplasia was disclosed on the occasion of necropsy studies, 330 days after the beginning of experiment. Similar lymphoma was not found in the remainder normal controls (n=73), nor in the group of infected hamsters age and weight matched (n=94). The neoplasia histopathologic and immunohistochemical changes were consistent with non-Hodgkin diffuse large B-ceIl lymphoma; nevertheless, the hypothesis of eventual leukemic origin was not entirely excluded. Experimentally induced lymphomas have been related in laboratory animais; however, cases of spontaneously occurring lymphoma have been infrequently described in hamsters. In the present case, the development of the disease could have some relation with the animal aging process
Governança de implementação do ODS 16.4: possibilidades e limites para a administração pública federal a partir das experiências da Unasul e OEA
O presente trabalho tem como foco o exame de um desafio
de governança regional importante para o Brasil, ligado
à implementação dos Objetivos do Desenvolvimento
Sustentável (ODS), e que demanda estreita cooperação com
organismos internacionais: a promoção da paz e justiça
diante de um contexto social permeado pela criminalidade
organizada. Configurado como o 16o ODS, a temática “Paz,
Justiça e Instituições Fortes” (ODS 16) aparece como uma das
novidades entre as metas para o desenvolvimento divulgada
em 2015 pela Organização das Nações Unidas (ONU). Em seu
parágrafo 4º, o ODS 16 (ou ODS 16.4) coloca a meta de reduzir
até 2030 “significativamente os fluxos financeiros e de armas
ilegais, reforçar a recuperação e devolução de recursos
roubados e combater todas as formas de crime organizado”
(ONU, 2015). No presente relatório, apresentamos como a
temática pertinente ao 16.4 vem sendo debatida nos últimos
anos em dois organismos regionais latino-americanos:
União das Nações Sul-Americanas (Unasul) e Organização
dos Estados Americanos (OEA). Ao final, após comparar
ambas organizações, examinamos as possibilidades que tal
cooperação abre para a administração pública federal.Caderno Enap, 103Coleção: Cátedras 2019Desenvolvimento SustentávelGovernanç
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