Mobile Collaboration for Language Learning and Cultural Learning

Locations outside the classroom represent social spaces or “settings” that offer a variety of affordances for language learning, but these opportunities will not be fully realized unless we make efforts to propose and try out new designs for learning in these settings. It is especially important to consider how learners might assemble, configure or help create learning designs that involve mobile technologies, tasks and resources corresponding to their needs, in readiness for chance encounters and for more sustained learning. Two key questions are pertinent to the issues outlined above when considering the nexus of collaboration, cultural experiences, and the interface between formal and informal learning: (1) What are the key findings from research studies and reported experiences of collaboration in mobile language learning, with particular reference to informal settings and cultural learning? (2) What do these findings mean for teacher roles, and how can learners be supported and developed to engage more effectively in collaborative and cultural mobile language learning? These two broad questions set the scene for this chapter and guide its structure. In the first part, we focus on existing studies to examine what has been tried and to establish the key findings. The existing studies include some in which we have been involved, often as lead researchers. After that, we consider teachers’ and learners’ changing roles and the foregrounding or development of competencies and skills that are important for more informal, and perhaps increasingly collaborative, mobile language learning. In the conclusion we propose a list of five areas of focus for teachers and learners to become aware that language learning with mobiles can operate across a highly‐flexible continuum from informal to formal learning and intercultural exchange

HIKE, High Intensity Kaon Experiments at the CERN SPS: Letter of Intent

A timely and long-term programme of kaon decay measurements at a new level of precision is presented, leveraging the capabilities of the CERN Super Proton Synchrotron (SPS). The proposed programme is firmly anchored on the experience built up studying kaon decays at the SPS over the past four decades, and includes rare processes, CP violation, dark sectors, symmetry tests and other tests of the Standard Model. The experimental programme is based on a staged approach involving experiments with charged and neutral kaon beams, as well as operation in beam-dump mode. The various phases will rely on a common infrastructure and set of detectors

High Intensity Kaon Experiments (HIKE) at the CERN SPS Proposal for Phases 1 and 2

International audienceA timely and long-term programme of kaon decay measurements at an unprecedented level of precision is presented, leveraging the capabilities of the CERN Super Proton Synchrotron (SPS). The proposed HIKE programme is firmly anchored on the experience built up studying kaon decays at the SPS over the past four decades, and includes rare processes, CP violation, dark sectors, symmetry tests and other tests of the Standard Model. The programme is based on a staged approach involving experiments with charged and neutral kaon beams, as well as operation in beam-dump mode. The various phases will rely on a common infrastructure and set of detectors

High Intensity Kaon Experiments (HIKE) at the CERN SPS Proposal for Phases 1 and 2

International audienceA timely and long-term programme of kaon decay measurements at an unprecedented level of precision is presented, leveraging the capabilities of the CERN Super Proton Synchrotron (SPS). The proposed HIKE programme is firmly anchored on the experience built up studying kaon decays at the SPS over the past four decades, and includes rare processes, CP violation, dark sectors, symmetry tests and other tests of the Standard Model. The programme is based on a staged approach involving experiments with charged and neutral kaon beams, as well as operation in beam-dump mode. The various phases will rely on a common infrastructure and set of detectors