992 research outputs found
On path-based coalgebras and weak notions of bisimulation
It is well known that the theory of coalgebras provides an abstract definition of behavioural equivalence that coincides with strong bisimulation across a wide variety of state-based systems. Unfortunately, the theory in the presence of so-called silent actions is not yet fully developed. In this paper, we give a coalgebraic characterisation of branching (delay) bisimulation in the context of labelled transition systems (fully probabilistic systems). It is shown that recording executions (up to a notion of stuttering), rather than the set of successor states, from a state is sufficient to characterise the respected bisimulation relations in both cases
The potential role of kelp forests on iodine speciation in coastal seawater
Funding: FCK would like to thank the TOTAL Foundation (Paris) and the MASTS pooling initiative (The Marine Alliance for Science and Technology for Scotland) for their support. MASTS is funded by the Scottish Funding Council (grant reference HR09011) and contributing institutions. JG acknowledges support from an SDSU Research Foundation Summer Undergraduate Research Award. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Peer reviewedPublisher PD
Unraveling the ultrafast dynamics of thermal-energy chemical reactions
In this perspective, we discuss how one can initiate, image, and disentangle
the ultrafast elementary steps of thermal-energy chemical dynamics, building
upon advances in technology and scientific insight. We propose that
combinations of ultrashort mid-infrared laser pulses, controlled molecular
species in the gas phase, and forefront imaging techniques allow to unravel the
elementary steps of general-chemistry reaction processes in real time. We
detail, for prototypical first reaction systems, experimental methods enabling
these investigations, how to sufficiently prepare and promote gas-phase samples
to thermal-energy reactive states with contemporary ultrashort mid-infrared
laser systems, and how to image the initiated ultrafast chemical dynamics. The
results of such experiments will clearly further our understanding of
general-chemistry reaction dynamics.Comment: 12 pages, 6 figure
Strongly aligned and oriented molecular samples at a kHz repetition rate
We demonstrate strong adiabatic laser alignment and mixed-field orientation
at kHz repetition rates. We observe degrees of alignment as large as
cos\Theta=0.94 at 1 kHz operation for iodobenzene. The experimental setup
consist of a kHz laser system simultaneously producing pulses of 30 fs (1.3 mJ)
and 450 ps (9 mJ). A cold 1 K state-selected molecular beam is produced at the
same rate by appropriate operation of an Even-Lavie valve. Quantum state
selection has been obtained using an electrostatic deflector. A camera and data
acquisition system records and analyzes the images on a single-shot basis. The
system is capable of producing, controlling (translation and rotation) and
analyzing cold molecular beams at kHz repetition rates and is, therefore,
ideally suited for the recording of ultrafast dynamics in so-called "molecular
movies".Comment: 6 pages, 4 figures, in press in Mol. Phys., accepted in February
2013, in final production (galley proofs done) since March 8, 2013, v3 only
adds publication dat
Two-state wave packet for strong field-free molecular orientation
We demonstrate strong laser-field-free orientation of absolute-ground-state
carbonyl sulfide molecules. The molecules are oriented by the combination of a
485-ps-long non-resonant laser pulse and a weak static electric field. The
edges of the laser pulse create a coherent superposition of two rotational
states resulting in revivals of strong transient molecular orientation after
the laser pulse. The experimentally attained degree of orientation of 0.6
corresponds to the theoretical maximum for mixing of the two states. Switching
off the dc field would provide the same orientation completely field-free
Strongly driven quantum pendulum of the OCS molecule
We demonstrate and analyze a strongly driven quantum pendulum in the angular
motion of stateselected and laser aligned OCS molecules. Raman-couplings during
the rising edge of a 50-picosecond laser pulse create a wave packet of pendular
states, which propagates in the confining potential formed by the
polarizability interaction between the molecule and the laser field. This
wave-packet dynamics manifests itself as pronounced oscillations in the degree
of alignment with a laser-intensity dependent period.Comment: 6 pages, 4 figure
What are Hybrid Development Methods Made Of?
Regardless of company size or industry sector, a majority of project teams and companies use customized processes that combine different development methods-so-called hybrid development methods. Even though such hybrid development methods are highly individualized, a common understanding of how to systematically construct synergetic practices is missing. Based on 1,467 data points from a large-scale online survey among practitioners, we study the current state of practice in process use to answer the question: What are hybrid development methods made of? Our findings reveal that only eight methods and few practices build the core of modern software development. This small set allows for statistically constructing hybrid development methods
What are Hybrid Development Methods Made Of? An Evidence-Based Characterization
Among the multitude of software development processes available, hardly any is used by the book. Regardless of company size or industry sector, a majority of project teams and companies use customized processes that combine different development methods— so-called hybrid development methods. Even though such hybrid development methods are highly individualized, a common understanding of how to systematically construct synergetic practices is missing. In this paper, we make a first step towards devising such guidelines. Grounded in 1,467 data points from a large-scale online survey among practitioners, we study the current state of practice in process use to answer the question: What are hybrid development methods made of? Our findings reveal that only eight methods and few practices build the core of modern software development. This small set allows for statistically constructing hybrid development methods. Using an 85% agreement level in the participants’ selections, we provide two examples illustrating how hybrid development methods are characterized by the practices they are made of. Our evidence-based analysis approach lays the foundation for devising hybrid development methods
A coalgebraic treatment of conditional transition systems with upgrades
We consider conditional transition systems, that model software product lines with upgrades, in a coalgebraic setting. By using Birkhoff's duality for distributive lattices, we derive two equivalent Kleisli categories in which these coalgebras live: Kleisli categories based on the reader and on the so-called lattice monad over Poset. We study two different functors describing the branching type of the coalgebra and investigate the resulting behavioural equivalence. Furthermore we show how an existing algorithm for coalgebra minimisation can be instantiated to derive behavioural equivalences in this setting
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