1,039 research outputs found
The Rise of Accelerated Seasoned Equity Underwritings
Seasoned equity offerings (SEOs) executed through accelerated underwritings have increased global market share recently, raising over 2.9 trillion for firms and selling shareholders. Compared to fully marketed deals, accelerated offerings occur more rapidly, raise more money, and require fewer underwriters. Importantly, accelerated deals reduce total issuance cost by about 250 basis points. Accelerated deals sell equal fractions of primary and secondary shares, whereas in traditional SEOs primary shares dominate. Announcement period returns are comparable for traditional and accelerated offerings, while secondary and mixed offerings trigger more negative market responses than do primary offerings. We conclude that this rapid, worldwide shift towards accelerated underwriting creates a spot market for SEOs, and represents the long-predicted shift towards an auction model for seasoned equity sales.Equity Offerings, Underwriting, Investment Banking
Teacher training between inclusive education and ICT
Technology can play an important facilitating role in the school inclusion process by supporting the students in the classroom and increasing the level of understanding. This paper aims to explore the reasons for this still wide gap and the motivations for not using ICT in the classroom by conducting research with a sample of 115 teachers in training (TFA), using a Mixed Methods approach to investigate the resistance and motivations for this phenomenon
Dipolar Bose gases: Many-body versus mean-field description
We characterize zero-temperature dipolar Bose gases under external spherical
confinement as a function of the dipole strength using the essentially exact
many-body diffusion Monte Carlo (DMC) technique. We show that the DMC energies
are reproduced accurately within a mean-field framework if the variation of the
s-wave scattering length with the dipole strength is accounted for properly.
Our calculations suggest stability diagrams and collapse mechanisms of dipolar
Bose gases that differ significantly from those previously proposed in the
literature
Leveraging fitness and lean bundles to build the cumulative performance sand cone model
Based on a sample of 317 manufacturing companies, this study adopts a structural equation modeling approach to test the relationships between bundles of lean practices and performance. The results of our analyses suggest that there is a sequence of lean practice implementation that permits to improve all the dimensions of operational performance. This study contributes to the academic literature and to practitioners by supporting the idea that a company - to achieve manufacturing excellence - should implement a "sand-cone" of lean practices to obtain a "sand-cone" of cumulative performance
Dipolar Bose-Einstein condensates with dipole-dependent scattering length
We consider a Bose-Einstein condensate of polar molecules in a harmonic trap,
where the effective dipole may be tuned by an external field. We demonstrate
that taking into account the dependence of the scattering length on the dipole
moment is essential to reproducing the correct energies and for predicting the
stability of the condensate. We do this by comparing Gross-Pitaevskii
calculations with diffusion Monte Carlo calculations. We find very good
agreement between the results obtained by these two approaches once the dipole
dependence of the scattering length is taken into account. We also examine the
behavior of the condensate in non-isotropic traps
Models of collaboration between general practice and mental health services in Italy.
Background and objectives: Anxiety and Depressive disorders represent an important public health problem, which involves not only the mental health services, but the General Practice as well. This paper examines models of Collaboration between General Practice and Community Mental Health Services developed in Italy. Methods: Different Consultation -Liaison activities are presented. For every Collaboration model advantages and disadvantage are discussed. Results: The structured Consultation Liaison Service is based on supplying diagnostic consultation and therapeutic interventions in support of General Practitioners (GPs). The service could be based in either a Community Mental Health Centre (CMHC) or externally. Diagnostic evaluation can be followed by brief and focal therapeutic interventions, in support of the GP's therapeutic plan. The spontaneous collaboration in small centres are frequent in rural areas where the contained dimensions of the services and the direct acquaintance between psychiatrists and GPs encourage the personalization of the collaboration. The model of Liaison and Group-Training focuses on direct contact between consultant and GPs. In the course of regular meetings, the consultant gives the GPs supervision and education, and they can discuss the therapeutic plans for patients requiring specialist intervention. Conclusion: The empiric classification presented should be considered an attempt to represent a complex reality. Every service, in fact, carries out activities that are necessarily wider than abstract typologies and that overlap with other models' activities
Bogoliubov modes of a dipolar condensate in a cylindrical trap
The calculation of properties of Bose-Einstein condensates with dipolar
interactions has proven a computationally intensive problem due to the long
range nature of the interactions, limiting the scope of applications. In
particular, the lowest lying Bogoliubov excitations in three dimensional
harmonic trap with cylindrical symmetry were so far computed in an indirect
way, by Fourier analysis of time dependent perturbations, or by approximate
variational methods. We have developed a very fast and accurate numerical
algorithm based on the Hankel transform for calculating properties of dipolar
Bose-Einstein condensates in cylindrically symmetric traps. As an application,
we are able to compute many excitation modes by directly solving the
Bogoliubov-De Gennes equations. We explore the behavior of the excited modes in
different trap geometries. We use these results to calculate the quantum
depletion of the condensate by a combination of a computation of the exact
modes and the use of a local density approximation
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