Your search keyword '"*QUANTUM counters"' showing total 19 results

1. A model of mercury cycling and isotopic fractionation in the ocean.

Author

Archer, David E. and Blum, Joel D.

Subjects

SEPARATION (Technology), PHOTOREDUCTION, CHEMICAL reduction, PHOTOCHEMISTRY, QUANTUM counters

Abstract

Mercury speciation and isotopic fractionation processes have been incorporated into the HAMOCC offline ocean tracer advection code. The model is fast enough to allow a wide exploration of the sensitivity of the Hg cycle in the oceans, and of factors controlling human exposure to monomethyl-Hg through the consumption of fish. Vertical particle transport of Hg appears to play a discernable role in setting present-day Hg distributions, which we surmise by the fact that in simulations without particle transport, the high present-day Hg deposition rate leads to an Hg maximum at the sea surface, rather than a subsurface maximum as observed. Hg particle transport has a relatively small impact on anthropogenic Hg uptake, but it sequesters Hg deeper in the water column, so that excess Hg is retained in the model ocean for a longer period of time after anthropogenic Hg deposition is stopped. Among 10 rate constants in the model, steady-state Hg concentrations are most sensitive to reactions that are sources or sinks of Hg(0), the evasion of which to the atmosphere is the dominant sink term in the surface ocean. Isotopic fractionations in the interconversion reactions are most strongly expressed, in the isotopic signatures of dissolved Hg, in reactions that involve the dominant dissolved species, Hg(II), including mass independent fractionation during Hg photoreduction. The &$916;199Hg of MMHg in the model, subject to photoreduction fractionation, reproduces theΔ199Hg of fish in the upper 1000m of the ocean, while the impact of anthropogenic Hg deposition on Hg isotope ratios is essentially negligible. [ABSTRACT FROM AUTHOR]

Published

2018

2. Superconducting Single-photon Detectors Made of Ultra-thin VN Films.

Author

Zolotov, Philipp, Divochiy, Alexander, Vakhtomin, Yury, Seleznev, Vitaly, Morozov, Pavel, and Smirnov, Konstantin

Subjects

THIN films, SUPERCONDUCTING films, PHOTON detectors, QUANTUM counters, PARAMETERS (Statistics)

Abstract

We optimized technology of thin VN films deposition in order to study VN-based superconducting single-photon detectors. Investigation of the main VN film parameters showed that this material has lower resistivity compared to commonly used NbN. Fabricated from obtained films devices showed 100% intrinsic detection efficiency at 900 nm, at the temperature of 1.7 K starting with the bias current of 0.7Ic. [ABSTRACT FROM AUTHOR]

Published

2018

3. Novel Designs of Quantum Reversible Counters.

Author

Qi, Xuemei, Zhu, Haihong, Chen, Fulong, Zhu, Junru, and Zhang, Ziyang

Subjects

*QUANTUM counters, *FLIP-flop circuits, *BINARY-coded decimal system, *REVERSIBLE computing, *COMPUTER hardware description languages

Abstract

Reversible logic, as an interesting and important issue, has been widely used in designing combinational and sequential circuits for low-power and high-speed computation. Though a significant number of works have been done on reversible combinational logic, the realization of reversible sequential circuit is still at premature stage. Reversible counter is not only an important part of the sequential circuit but also an essential part of the quantum circuit system. In this paper, we designed two kinds of novel reversible counters. In order to construct counter, the innovative reversible T Flip-flop Gate (TFG), T Flip-flop block (T_FF) and JK flip-flop block (JK_FF) are proposed. Based on the above blocks and some existing reversible gates, the 4-bit binary-coded decimal (BCD) counter and controlled Up/Down synchronous counter are designed. With the help of Verilog hardware description language (Verilog HDL), these counters above have been modeled and confirmed. According to the simulation results, our circuits' logic structures are validated. Compared to the existing ones in terms of quantum cost (QC), delay (DL) and garbage outputs (GBO), it can be concluded that our designs perform better than the others. There is no doubt that they can be used as a kind of important storage components to be applied in future low-power computing systems. [ABSTRACT FROM AUTHOR]

Published

2016

4. Obtaining a linear combination of the principal components of a matrix on quantum computers.

Author

Daskin, Ammar

Subjects

*PRINCIPAL components analysis, *QUANTUM computers, *MULTIVARIATE analysis, *FEATURE extraction, *QUANTUM counters, *EIGENVALUES

Abstract

Principal component analysis is a multivariate statistical method frequently used in science and engineering to reduce the dimension of a problem or extract the most significant features from a dataset. In this paper, using a similar notion to the quantum counting, we show how to apply the amplitude amplification together with the phase estimation algorithm to an operator in order to procure the eigenvectors of the operator associated to the eigenvalues defined in the range $$\left[ a, b\right] $$ , where a and b are real and $$0 \le a \le b \le 1$$ . This makes possible to obtain a combination of the eigenvectors associated with the largest eigenvalues and so can be used to do principal component analysis on quantum computers. [ABSTRACT FROM AUTHOR]

Published

2016

5. Determining the Quantum Characteristics of a Photon Counter Using Power-Calibrated Laser Radiation.

Author

Kovalev, A., Liberman, A., Mikryukov, A., Moskalyuk, S., and Ulanovskii, M.

Subjects

*QUANTUM counters, *LASER beams, *RADIATION measurements, *FRESNEL function, *ELECTRONIC attenuators, *PHOTOELECTRIC effect, *EXPERIMENTAL design

Abstract

An experimental setup was devised allowing high-accuracy radiation power measurements in the range of the order of 10-10 W. The use of a calibrated Fresnel prismatic attenuator in the design minimizes the error in determining the mean number of photos in each radiation pulse. Results are presented for measurements of the positive measure operator for a Hamamatsu H7422-40 photoelectric multiplier. [ABSTRACT FROM AUTHOR]

Published

2016

6. Particle detection through the quantum counter concept in YAG:Er3+.

Author

Borghesani, A. F., Braggio, C., Carugno, G., Chiossi, F., Di Lieto, A., Guarise, M., Ruoso, G., and Tonelli, M.

Subjects

*PARTICLE analysis, *QUANTUM counters, *YAG lasers, *ENERGY levels (Quantum mechanics), *INFRARED technology, *DOPED semiconductors

Abstract

We report on a scheme for particle detection based on the infrared quantum counter concept. Its operation consists of a two-step excitation process of a four level system, which can be realized in rare earth-doped crystals when a cw pump laser is tuned to the transition from the second to the fourth level. The incident particle raises the atoms of the active material into a low lying, metastable energy state, triggering the absorption of the pump laser to a higher level. Following a rapid non-radiative decay to a fluorescent level, an optical signal is observed with a conventional detector. In order to demonstrate the feasibility of such a scheme, we have investigated the emission from the fluorescent level 4S3/2 (540 nm band) in an Er3+ -doped YAG crystal pumped by a tunable titanium sapphire laser when it is irradiated with 60 keV electrons delivered by an electron gun. We have obtained a clear signature that this excitation increases the 4I13/2 metastable level population that can efficiently be exploited to generate a detectable optical signal. [ABSTRACT FROM AUTHOR]

Published

2015

7. Particle detection through the quantum counter concept in YAG:Er3+.

Author

Borghesani, A. F., Braggio, C., Carugno, G., Chiossi, F., Di Lieto, A., Guarise, M., Ruoso, G., and Tonelli, M.

Subjects

PARTICLE analysis, QUANTUM counters, YAG lasers, ENERGY levels (Quantum mechanics), INFRARED technology, DOPED semiconductors

Abstract

We report on a scheme for particle detection based on the infrared quantum counter concept. Its operation consists of a two-step excitation process of a four level system, which can be realized in rare earth-doped crystals when a cw pump laser is tuned to the transition from the second to the fourth level. The incident particle raises the atoms of the active material into a low lying, metastable energy state, triggering the absorption of the pump laser to a higher level. Following a rapid non-radiative decay to a fluorescent level, an optical signal is observed with a conventional detector. In order to demonstrate the feasibility of such a scheme, we have investigated the emission from the fluorescent level 4S3/2 (540 nm band) in an Er3+ -doped YAG crystal pumped by a tunable titanium sapphire laser when it is irradiated with 60 keV electrons delivered by an electron gun. We have obtained a clear signature that this excitation increases the 4I13/2 metastable level population that can efficiently be exploited to generate a detectable optical signal. [ABSTRACT FROM AUTHOR]

Published

2015

8. Construction of the least informative observable conserved by a given quantum instrument.

Author

Yui Kuramochi

Subjects

*INFORMATION theory, *QUANTUM theory, *OPERATOR theory, *PHOTON counting, *QUANTUM counters

Abstract

For a quantum measurement process described by a quantum instrument I and a system observable corresponding to a positive-operator valued measure (POVM) E, I is said to conserve the information of E if the joint successive measurement of I followed by E is equivalent to a single measurement of E. We show that for any quantum instrument I we can construct a POVM conserved by I. Intuitively, the construction gives the infinite joint successive measurement of I. We also show that the constructed POVM is the least informative observable among POVMs conserved by I, i.e., the constructed POVM can be realized by a classical post-processing of any POVM conserved by I. As typical examples of quantum instruments, we explicitly evaluate POVMs of infinite successive measurements for photon counting and quantum counter instruments. [ABSTRACT FROM AUTHOR]

Published

2015

9. Two determinations of the 223Ra half-life.

Author

Bergeron, Denis E. and Fitzgerald, Ryan

Subjects

*QUANTUM wells, *IONIZATION chambers, *QUANTUM counters, *INTEGRATED circuits, *RADIOTHERAPY

Abstract

Ra-223 is an alpha-emitter that is being used as a bone-seeking radiotherapeutic agent. The relatively large uncertainty on its evaluated half-life (0.26%, Bé et al., 2011 ) is an impediment to precision activity assays, which often involve measurements by various methods over time spans of days or weeks. We have performed two series of measurements using an ionization chamber (IC) and a NaI(Tl) well counter (γ-wc) to determine new, precise values for the 223 Ra half-life. We have endeavored to realistically assess the uncertainties on the derived half-lives, looking beyond the fit uncertainties to identify uncertainty components acting on multiple timescales. We recovered respective values of 11.447(6) d and 11.445(13) d from the IC and γ-wc measurements. Our values are in accord with the evaluated value of 11.43(3) d, but with smaller combined uncertainties. [ABSTRACT FROM AUTHOR]

Published

2015

10. Design of a novel quantum reversible ternary up-counter.

Author

Houshmand, Pouran and Haghparast, Majid

Subjects

*QUANTUM counters, *ELECTRIC power, *ELECTRIC circuits, *QUANTUM theory, *NUCLEAR counters

Abstract

Reversible logic has been recently considered as an interesting and important issue in designing combinational and sequential circuits. The combination of reversible logic and multi-valued logic can improve power dissipation, time and space utilization rate of designed circuits. Only few works have been reported about sequential reversible circuits and almost there are no paper exhibited about quantum ternary reversible counter. In this paper, first we designed 2-qutrit and 3-qutrit quantum reversible ternary up-counters using quantum ternary reversible T-flip-flop and quantum reversible ternary gates. Then we proposed generalized quantum reversible ternary n-qutrit up-counter. We also introduced a new approach for designing any type of n-qutrit ternary and reversible counter. According to the results, we can conclude that applying second approach quantum reversible ternary up-counter is better than the others. [ABSTRACT FROM AUTHOR]

Published

2015

11. QUANTUM ASTRONOMY AND INFORMATION.

Author

BARBIERI, CESARE

Subjects

PHOTON detectors, ASTRONOMY, PARTICLE detectors, QUANTUM counters, NUCLEAR counters

Published

2007

12. Suppressing Chaos of Warship Power System Based on the Quantum Mechanics Theory.

Author

Cong, Xinrong and Li, Longsuo

Subjects

*LYAPUNOV exponents, *CHAOS theory, *QUANTUM mechanics, *QUANTUM phase transitions, *QUANTUM counters

Abstract

Chaos control of marine power system is investigated by adding the Gaussian white noise to the system. The top Lyapunov exponent is computed to detect whether the classical system chaos or not, also the phase portraits are plotted to further verify the obtained results. The classical control of chaos and its quantum counterpart of the marine power system are investigated. The Hamiltonian of the controlled system is given to analyze the quantum counterpart of the classical system, which is based on the quantum mechanics theory. [ABSTRACT FROM AUTHOR]

Published

2014

13. Application of singular value decomposition analysis to time-dependent powder diffraction data of an in-situ photodimerization reaction.

Author

Mabied, Ahmed F., Shunsuke Nozawa, Manabu Hoshino, Ayana Tomita, Tokushi Sato, and Shin-ichi Adachi

Subjects

*PHOTODIMERIZATION, *DATA analysis, *PHOTOCHEMISTRY, *POWDERS, *QUANTUM counters

Abstract

Singular value decomposition (SVD) analysis has important applications for time-dependent crystallographic data, extracting significant information. Herein, a successful application of SVD analysis of time-resolved powder diffraction data over the course of an in-situ photodimerization reaction of anthracene derivatives is introduced. SVD revealed significant results in the case of 9-methylanthracene and 1-chloroanthracene. The results support the formation of the 9-methylanthracene stable dimer phase and suggest the existence of an excimer state. [ABSTRACT FROM AUTHOR]

Published

2014

14. Classicality condition on a system observable in a quantum measurement and a relative-entropy conservation law.

Author

Yui Kuramochi and Masahito Ueda

Subjects

*QUANTUM measurement, *CONSERVATION laws (Physics), *QUANTUM information science, *QUANTUM entropy, *PHOTON counting, *QUANTUM counters

Abstract

We consider the information flow on a system observable X corresponding to a positive-operator-valued measure under a quantum measurement process Y described by a completely positive instrument from the viewpoint of the relative entropy. We establish a sufficient condition for the relative-entropy conservation law which states that the average decrease in the relative entropy of the system observable X equals the relative entropy of the measurement outcome of Y, i.e., the information gain due to measurement. This sufficient condition is interpreted as an assumption of classicality in the sense that there exists a sufficient statistic in a joint successive measurement of Y followed by X such that the probability distribution of the statistic coincides with that of a single measurement of X for the premeasurement state. We show that in the case when X is a discrete projection-valued measure and Y is discrete, the classicality condition is equivalent to the relative-entropy conservation for arbitrary states. The general theory on the relative-entropy conservation is applied to typical quantum measurement models, namely, quantum nondemolition measurement, destructive sharp measurements on two-level systems, a photon counting, a quantum counting, homodyne and heterodyne measurements. These examples except for the nondemolition and photon-counting measurements do not satisfy the known Shannon-entropy conservation law proposed by Ban [M. Ban, J. Phys. A: Math. Gen. 32, 1643 (1999)], implying that our approach based on the relative entropy is applicable to a wider class of quantum measurements. [ABSTRACT FROM AUTHOR]

Published

2015

15. Quantum discord is Bohr’s notion of non-mechanical disturbance introduced to counter the Einstein–Podolsky–Rosen argument.

Author

Wiseman, Howard M.

Subjects

*BOHR'S atom model, *EINSTEIN-Podolsky-Rosen experiment, *QUANTUM mechanics, *QUANTUM information theory, *MEASURE theory, *QUANTUM counters

Abstract

Abstract: By rigorously formalizing the Einstein–Podolsky–Rosen (EPR) argument, and Bohr’s reply, one can appreciate that both arguments were technically correct. Their opposed conclusions about the completeness of quantum mechanics hinged upon an explicit difference in their criteria for when a measurement on Alice’s system can be regarded as not disturbing Bob’s system. The EPR criteria allow their conclusion–incompleteness–to be reached by establishing the physical reality of just a single observable (not of both and its conjugate observable ), but I show that Bohr’s definition of disturbance prevents the EPR chain of reasoning from establishing even this. Moreover, I show that Bohr’s definition is intimately related to the asymmetric concept of quantum discord from quantum information theory: if and only if the joint state has no Alice-discord, she can measure any observable without disturbing (in Bohr’s sense) Bob’s system. Discord can be present even when systems are unentangled, and this has implications for our understanding of the historical development of notions of quantum nonlocality. [Copyright &y& Elsevier]

Published

2013

16. Significance of Yb3+ concentration on the upconversion mechanisms in codoped Y2O3:Er3+, Yb3+ nanocrystals

Author

Marco Bettinelli, John-Christopher Boyer, Adolfo Speghini, Fiorenzo Vetrone, and John A. Capobianco

Subjects

INFRARED QUANTUM COUNTERS, Ytterbium, Materials science, Photoluminescence, business.industry, Phonon, Relaxation (NMR), Doping, Analytical chemistry, General Physics and Astronomy, chemistry.chemical_element, Nanocrystalline material, Photon upconversion, Erbium, chemistry, LANTHANIDE-DOPED Y2O3, EMISSION, Optoelectronics, business

Abstract

The optical properties of five different nanocrystalline Y2O3:Er3+, Yb3+ samples are presented and discussed. Green and red emission was observed following excitation with 488 nm and attributed to 2H11/2, 4S3/2→4I15/2, and 4F9/2→4I15/2 transitions, respectively. Striking red enhancement was observed in the upconversion spectra when exciting the Y2O3:Er3+, Yb3+ samples with 978 nm, and it became more pronounced with an increase in Yb3+ concentration. A cross relaxation mechanism (4F7/2→4F9/2 and 4F9/2←4I11/2) was responsible for directly populating the 4F9/2 state but did not explain the difference in the magnitude of red enhancement between identically doped bulk and nanocrystalline Y2O3:Er3+, Yb3+ samples. The 4F9/2 level was populated via a nonresonant mechanism that involved the 4F9/2←4I13/2 transition that is more prevalent in the nanocrystals, which is due to the high energy phonons inherent in this type of material. In nanocrystalline Y2O3:Er3+, Yb3+, we observe a change in the upconversion mechanis...

Published

2004

17. Structural investigation and anti-Stokes emission of scandium oxide nanocrystals activated with trivalent erbium

Author

John-Christopher Boyer, Stefano Polizzi, Marco Bettinelli, Radenka Krsmanović, John A. Capobianco, Adolfo Speghini, and Fiorenzo Vetrone

Subjects

INFRARED QUANTUM COUNTERS, Materials science, Energy transfer upconversion, Analytical chemistry, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, 7. Clean energy, Erbium, chemistry.chemical_compound, X-RAY-DIFFRACTION, Materials Chemistry, Electrochemistry, UP-CONVERSION, Dopant, Renewable Energy, Sustainability and the Environment, Doping, Scandium oxide, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Nanocrystalline material, Photon upconversion, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, X-ray crystallography, 0210 nano-technology

Abstract

The structural and emission (Stokes and anti-Stokes) properties of Sc 2 O 3 :Er 3 + nanocrystals doped with 0.1, 1, and 10 mol % Er 3 + were investigated. The nanocrystalline powders were characterized using X-ray scattering as well as transmission and scanning electron microscopy. The samples showed a very porous, open microstructure with the particles having a narrow distribution of sizes (10-60 nm). Furthermore, the mechanisms responsible for the anti-Stokes emission (λ e x c = 980 nm) were elucidated. We observed that the processes responsible for populating the green ( 2 H 1 1 / 2 , 4 S 3 / 2 ) and red ( 4 F 9 / 2 ) emitting states were dependent upon the concentration of the dopant ion. In 0.1 mol % nanocrystalline Sc 2 O 3 :E 3 + , upconversion was determined to occur via excited state absorption while in the 10 mol % sample, energy transfer upconversion was the dominant mechanism. An enhancement of the red anti-Stokes emission from the 4 F 9 / 2 → 4 I 1 5 / 2 transition was observed in Sc 2 O 3 :Er 3 + nanocrystals as a function of Er 3 + concentration. This was the result of two independent processes responsible for directly populating the 4 F 9 / 2 state and bypassing the green emitting levels ( 2 H 1 1 / 2 and 4 S 3 / 2 ). Furthermore, the red enhancement was found to be more pronounced compared to identically doped Y 2 O 3 :Er 3 + nanocrystals. An explanation for this phenomenon is presented and discussed.

Published

2005

18. Anti-stokes luminescence in Pr3+ activated crystalline ZBLAN (Zr, Ba, La, Al & Na) fluoride phosphor

Author

CHATURVEDI, SS, DHOBLE, SJ, and CHANDRA, BP

Subjects

Ions, Anti-Stokes Luminescence, Blue, Energy-Transfer, Green, Infrared Quantum Counters, Zblan, Up-Conversion, Fiber, Red, Upconversion

Abstract

Infrared-to-visible up-conversion in Pr3+ activated ZBLAN fluoride crystalline phosphors has been investigated at room temperature for different activator concentrations. In the excitation spectra as well as in the emission spectra, initially the intensity increases with activator concentration, attains an optimum value and then it decreases with further increase in the activator concentration. It seems that blue excitation of the phosphor is due to Excited State Absorption (ESA) mechanism. The 2nd power dependence of the blue fluorescence from the (3)p(0) state under IR pumping of (1)G(4) state indicates a dominant two photon ESA mechanism. The mechanism of anti-Stokes luminescence in an unique optical activator Pr3+ in the ZBLAN fluoride host material, is discussed.

Published

2005

19. Absolute Spectrofluorometry.

Author

Melhuish WH

Abstract

The last 10 years has seen the increasing publication of the emission spectra of organic, inorganic and metal-chelate compounds, but there is no agreed method of presentation of such spectra. In the few cases where corrected emission spectra have been published, there is often no mention of the units used for the intensity coordinate or the method used for correcting spectra. A method of reporting absolute fluorescence spectra originally put forward in 1962 will be reexamined and improved. The two best known methods for calibrating spectrometers for absolute spectrofluorometry: (a) standard tungsten lamp, (b) quantum counter method, will be critically examined, and the limitations and possible improvements in accuracy will be proposed. The criteria for an emission standard will be examined and the use of emission standards for calibrating spectrorluorometers discussed. It is suggested that the distribution of emission standards to laboratories measuring corrected fluorescence spectra and the analysis and publication of the results should be done in the near future.

Published

1972