4,708 research outputs found
Quantum disentanglers
It is not possible to disentangle a qubit in an unknown state from a
set of (N-1) ancilla qubits prepared in a specific reference state . That
is, it is not possible to {\em perfectly} perform the transformation
. The question is then how well we can do? We consider a number of
different methods of extracting an unknown state from an entangled state formed
from that qubit and a set of ancilla qubits in an known state. Measuring the
whole system is, as expected, the least effective method. We present various
quantum ``devices'' which disentangle the unknown qubit from the set of ancilla
qubits. In particular, we present the optimal universal disentangler which
disentangles the unknown qubit with the fidelity which does not depend on the
state of the qubit, and a probabilistic disentangler which performs the perfect
disentangling transformation, but with a probability less than one.Comment: 8 pages, 1 eps figur
Optimal Universal Disentangling Machine for Two Qubit Quantum States
We derive the optimal curve satisfied by the reduction factors, in the case
of universal disentangling machine which uses only local operations.
Impossibility of constructing a better disentangling machine, by using
non-local operations, is discussed.Comment: 15 pages, 2 eps figures, 1 section added, 1 eps figure added, minor
corrections, 2 reference numbers correcte
The intricate Galaxy disk: velocity asymmetries in Gaia-TGAS
We use the Gaia-TGAS data to compare the transverse velocities in Galactic
longitude (coming from proper motions and parallaxes) in the Milky Way disk for
negative and positive longitudes as a function of distance. The transverse
velocities are strongly asymmetric and deviate significantly from the
expectations for an axisymmetric Galaxy. The value and sign of the asymmetry
changes at spatial scales of several tens of degrees in Galactic longitude and
about 0.5 kpc in distance. The asymmetry is statistically significant at 95%
confidence level for 57% of the region probed, which extends up to ~1.2 kpc. A
percentage of 24% of the region studied shows absolute differences at this
confidence level larger than 5 km/s and 7% larger than 10 km/s. The asymmetry
pattern shows mild variations in the vertical direction and with stellar type.
A first qualitative comparison with spiral arm models indicates that the arms
are unlikely to be the main source of the asymmetry. We briefly discuss
alternative origins. This is the first time that global all-sky asymmetries are
detected in the Milky Way kinematics, beyond the local neighbourhood, and with
a purely astrometric sample.Comment: Accepted for publication in A&A Letter
Quantitative Forecasting of Risk for PTSD Using Ecological Factors: A Deep Learning Application
Forecasting the risk for mental disorders from early ecological information holds benefits for the individual and society. Computational models used in psychological research, however, are barriers to making such predictions at the individual level. Preexposure identification of future soldiers at risk for posttraumatic stress disorder (PTSD) and other individuals, such as humanitarian aid workers and journalists intending to be potentially exposed to traumatic events, is important for guiding decisions about exposure. The purpose of the present study was to evaluate a machine learning approach to identify individuals at risk for PTSD using readily collected ecological risk factors, which makes scanning a large population possible. An exhaustive literature review was conducted to identify multiple ecological risk factors for PTSD. A questionnaire assessing these factors was designed and distributed among residents of southern Israel who have been exposed to terror attacks; data were collected from 1,290 residents. A neural network classification algorithm was used to predict the likelihood of a PTSD diagnosis. Assessed by cross-validation, the prediction of PTSD diagnostic status yielded a mean area under receiver operating characteristics curve of .91 (F score = .83). This study is a novel attempt to implement a neural network classification algorithm using ecological risk factors to predict potential risk for PTSD. Preexposure identification of future soldiers and other individuals at risk for PTSD from a large population of candidates is feasible using machine learning methods and readily collected ecological factors
Contraceptive trends and fetal outcome in women with short and long interpregnancy interval: a prospective observational study
Background: The present study was conducted at our tertiary health centre with the objective of analyzing contraceptive trends and fetal outcome in women with various interpregnancy interval (IPI).
Methods: The present study was a prospective observational study. Women were segregated into three categories as per their IPI (short, normal and long) and contraceptive trends and fetal outcome were deliberated. All women attending ANC clinic with previous pregnancy, regardless of outcome and registration status were included in our study.
Results: We found that 21.1% of women with short IPI were unaware about contraception and this difference was statistically significant. It was seen that among women not using any method of contraception, majority had short ICP, almost 31.1% cases. This difference was also statistically significant. Amidst those with adverse outcomes of previous pregnancy, i.e. 169 cases, 87 cases i.e. 51.5% of the women conceived within 2 years. Short IPI is linked with an escalated risk of low birth weight, preterm birth and congenital anomaly whereas long IPI caused large for gestational age babies.
Conclusions: Contraception and previous pregnancy outcome have a significant effect on interpregnancy interval which in turn affects the maternal and fetal outcome. So it is essential to maintain an optimum interpregnancy interval as most of these complications are avoidable. Short interpregnancy interval is associated with low birth weight, preterm and congenital anomaly whereas long interpregnancy interval is associated with large for gestational age babies
Realization of Optimal Disentanglement by Teleportation via Separable Channel
We discuss here the best disentanglement processes of states of two two-level
systems which belong to (i) the universal set, (ii) the set in which the states
of one party lie on a single great circle of the Bloch sphere, and (iii) the
set in which the states of one party commute with each other, by teleporting
the states of one party (on which the disentangling machine is acting) through
three particular type of separable channels, each of which is a mixture of Bell
states. In the general scenario, by teleporting one party's state of an
arbitrary entangled state of two two-level parties through some mixture of Bell
states, we have shown that this entangled state can be made separable by using
a physically realizable map , acting on one party's states, if
, where
(for ), and .Comment: 20 pages Late
Communicative Packaging Systems for Safety of Food Products
The packaging system protects the food content from moisture, oxidation, biological deterioration, and physical damage and facilitates product distribution throughout the supply chain. It is of the utmost importance to select the suitable packaging material, right packaging technique, and distribution system to meet the consumer demand. The traditional packaging system facilitates the distribution system by performing the basic function of containment, protection, preservation, and communication. Nowadays, food industry and consumers are more concerned about the product's freshness and safety apart from containment and protection. This chapter entails that a communication-based packaging system is an important technique that improves or indicates product safety in the supply chain using smart devices in the packaging system. It monitors the changes in the environments and communicates the condition of food products throughout the supply chain. Smart devices may include various indicators, sensors, radio frequency identification tags, bar codes, and other techniques that improve food safety and quality. These devices establish a chain of responsibility throughout the food supply chain and build a more transparent distribution system and transmit information, rectifying the existing challenges and improving food safety
Nonlinear Qubit Transformations
We generalise our previous results of universal linear manipulations [Phys.
Rev. A63, 032304 (2001)] to investigate three types of nonlinear qubit
transformations using measurement and quantum based schemes. Firstly, nonlinear
rotations are studied. We rotate different parts of a Bloch sphere in opposite
directions about the z-axis. The second transformation is a map which sends a
qubit to its orthogonal state (which we define as ORTHOG). We consider the case
when the ORTHOG is applied to only a partial area of a Bloch sphere. We also
study nonlinear general transformation, i.e. (theta,phi)->(theta-alpha,phi),
again, applied only to part of the Bloch sphere. In order to achieve these
three operations, we consider different measurement preparations and derive the
optimal average (instead of universal) quantum unitary transformations. We also
introduce a simple method for a qubit measurement and its application to other
cases.Comment: minor corrections. To appear in PR
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