Quantum field tomography

We introduce the concept of quantum field tomography, the efficient and reliable reconstruction of unknown quantum fields based on data of correlation functions. At the basis of the analysis is the concept of continuous matrix product states, a complete set of variational states grasping states in quantum field theory. We innovate a practical method, making use of and developing tools in estimation theory used in the context of compressed sensing such as Prony methods and matrix pencils, allowing us to faithfully reconstruct quantum field states based on low-order correlation functions. In the absence of a phase reference, we highlight how specific higher order correlation functions can still be predicted. We exemplify the functioning of the approach by reconstructing randomised continuous matrix product states from their correlation data and study the robustness of the reconstruction for different noise models. We also apply the method to data generated by simulations based on continuous matrix product states and using the time-dependent variational principle. The presented approach is expected to open up a new window into experimentally studying continuous quantum systems, such as encountered in experiments with ultra-cold atoms on top of atom chips. By virtue of the analogy with the input-output formalism in quantum optics, it also allows for studying open quantum systems.Comment: 31 pages, 5 figures, minor change

Improvement in soybean sprouts production with ultrasound power.

The present work aimed the application of different ultrasound powers (10, 50 and 90W) to evaluate the germination and characteristics of soybean sprouts fromsoybeans of cultivar BRS 216 and 3 lines (A, B and C). In the germination test,the line A showed the highest percentage of germination (96% for 90W).The cultivar BRS 216 and line A present lower values of weight and higher yield of sprouts. The viable sprouts that presented the highest weight (for each 50g of soybean) were: line A followed by BRS 216, line C and B, with statistical differences (p<0.05) between them. For each 50g of soybean of cultivar BRS 216 and Lines A, B and C the production of viable sprouts was 231.47; 237.87; 170.74 and 199.94g, respectively, for 90W. In relation to the length of the sprouts using the power of 10W the line C presented a longer length. The line A using 90W showed better color characteristics. The highest protein value was found in cultivar BRS 216, for all applied potencies. With this work it can be concluded that the line A would be the most suitable for sprout production regardless of the ultrasound power applie

Universality of dispersive spin-resonance mode in superconducting BaFe2As2

Spin fluctuations in superconducting BaFe2(As1-xPx)2 (x=0.34, Tc = 29.5 K) are studied using inelastic neutron scattering. Well-defined commensurate magnetic signals are observed at ({\pi},0), which is consistent with the nesting vector of the Fermi surface. Antiferromagnetic (AFM) spin fluctuations in the normal state exhibit a three-dimensional character reminiscent of the AFM order in nondoped BaFe2As2. A clear spin gap is observed in the superconducting phase forming a peak whose energy is significantly dispersed along the c-axis. The bandwidth of dispersion becomes larger with approaching the AFM ordered phase universally in all superconducting BaFe2As2, indicating that the dispersive feature is attributed to three-dimensional AFM correlations. The results suggest a strong relationship between the magnetism and superconductivity.Comment: 5 pages, 5 figure

Experimentally exploring compressed sensing quantum tomography

In the light of the progress in quantum technologies, the task of verifying the correct functioning of processes and obtaining accurate tomographic information about quantum states becomes increasingly important. Compressed sensing, a machinery derived from the theory of signal processing, has emerged as a feasible tool to perform robust and significantly more resource-economical quantum state tomography for intermediate-sized quantum systems. In this work, we provide a comprehensive analysis of compressed sensing tomography in the regime in which tomographically complete data is available with reliable statistics from experimental observations of a multi-mode photonic architecture. Due to the fact that the data is known with high statistical significance, we are in a position to systematically explore the quality of reconstruction depending on the number of employed measurement settings, randomly selected from the complete set of data, and on different model assumptions. We present and test a complete prescription to perform efficient compressed sensing and are able to reliably use notions of model selection and cross-validation to account for experimental imperfections and finite counting statistics. Thus, we establish compressed sensing as an effective tool for quantum state tomography, specifically suited for photonic systems.Comment: 12 pages, 5 figure

Quantificação não destrutiva do contéudo de clorofilas em folhas de milho através de método colorimétrico.

Este trabalho foi conduzido visando avaliar a viabilidade da utilização de um colorímetro, como alternativa ao medidor de clorofila para a quantificação não destrutiva de clorofilas em folhas de milho.Suplemento. Trabalho apresentado no 52. Congresso Brasileiro de Olericultura, Salvador, 2012

High Enthalpy Flow Characterization Using Tunable Diode Laser Absorption Spectroscopy

This research aims at analysing thermo-chemical properties of the hypersonic high-enthalpy flow in the L2K wind tunnel, situated in Köln at the German Aerospace Center (DLR). In the L2K wind tunnel, Martian atmosphere can be created, and the facility can simulate heat load conditions encountered during atmospheric entry of Martian missions. The focus of this project is the analysis of the non-intrusive experimental technique "Tunable Diode Laser Absorption Spectroscopy" (TDLAS), based on line of sight absorption spectroscopy, and applied to hypersonic flow. A simplified Martian atmosphere (97% CO2 and 3% N2) was used. A new interpretation for CO-TDLAS experimental technique applied to hypersonic wind tunnel flow analysis was developed. Numerical simulations with the DLR-TAU non-equilibrium flow solver were used as support of this analysis, and match between simulations and experiments was observed. Flow speed and absorption line’s width were measured, and the knowledge of L2K’s flow structure was extended

Qualidade de maçãs 'Royal Gala' submetidas ao dano mecânico por impacto e aplicação de 1-Metilciclopropeno em dois sistemas comerciais de armazenamento.

O objetivo deste trabalho foi avaliar os efeitos do dano mecânico por impacto e da aplicação de 1-metilciclopropeno (1-MCP) sobre a qualidade de maçãs ?Royal Gala? mantidas em armazenamento refrigerado (AR) e em atmosfera controlada (AC). Os tratamentos avaliados foram dano mecânico (sem e com dano por impacto) combinado com a aplicação de 1-MCP (0 e 625 nL L-1). Os frutos foram armazenados durante quatro meses em armazenamento refrigerado (AR; 0 ºC ± 1 ºC e 92 ± 2 % de UR) (experimento 1) e durante oito meses em atmosfera controlada (AC; 1,2 kPa de O2 + 2,0 kPa de CO2; 0 ºC ± 0,1 ºC e 96 ± 2 % de UR) (experimento 2). Em AR, os frutos tratados com 1-MCP apresentaram maior firmeza de polpa, além de maior área escurecida no local danificado, na saída da câmara. Nesta condição de armazenamento, após sete dias em condição ambiente, os frutos tratados com 1-MCP apresentaram acidez titulável mais elevada, maior escurecimento da epiderme e menor profundidade de escurecimento da polpa no local danificado. Em AC, a aplicação do 1-MCP proporcionou, após a saída da câmara, frutos com menor teor de sólidos solúveis e maior escurecimento da epiderme no local danificado, sendo que, após sete dias em condição ambiente, os frutos apresentaram maior profundidade de escurecimento do tecido da polpa no local danificado. O dano por impacto ocasionou escurecimento da polpa de maçãs ?Royal Gala?. O 1-MCP não inibiu os efeitos do dano, mas preservou a qualidade dos frutos, especialmente em AR