37 research outputs found

    Journal Board Members, 1990-1991

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    Board members for the Journal of Contemporary Law and Policy (JCL) and the Journal of Energy, Natural Resources and Environmental Law (JENREL). Front row from left: Shannon Stewart, note and comment editor; J. Derek Dahlstrom, articles editor (JCL); Tiffany Romney, managing editor; Lisa Hanna, note and comment editor; Bill Hodkin, administrative editor; and Jamal Kalis, articles editor (JENREL). Back row from left: Greg Miles, note and comment editor; Jeff Anderson, editor-in-chief (JCL), John Steiger, editor-in-chief (JENREL); David Neidert, executive editor; and Lorna Walker, note and comment editor. Featured in 1990 Res Gestae Volume 12 No. 1 (http://content.lib.utah.edu/cdm/singleitem/collection/utlawrev/id/499/rec/3)

    Comparison of tumour susceptibility among various organs of foetal, young and adult ICR/Jcl mice

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    Summary.-Urethane was found to be uniformly distributed in all the major organs of foetal, young and adult ICR/Jcl mice and then to disappear rapidly as measured by the incorporation of urethane-carbonyl-14C, thus permitting the accurate com-parison of tumour susceptibility of cells in various organs of mice at different ages. Lung tumour frequency (tumours/lung) was significantly higher in mice treated with urethane when young (21 days old) and adult (63 days old) than in those treated in utero (Days 11-19 of gestation). When relative sensitivity of a lung cell was cal-culated as the ratio of average number of tumours per lung per mg of lung at the time of treatment, however, a lung cell of the foetus was more sensitive to urethane than that of the young and adult. Hepatomata were Induced significantly only when male foetuses and neonates were exposed to urethane. The offspring exposed to urethane on Days 11-16, however, developed hepatomata in lower incidence than those exposed on Days 14-19, whereas the previous investigation by the author revealed that Days 11-13 correspond to the stage most sensitive to hepatocarcino-genesis. This contradiction was due to the occurrence of testicular hypogenesis(chemical castration) in all offspring of the former group. Differentiating femal

    Application of catalytic Z-selective olefin metathesis in natural product synthesis

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    Over the last few years, a number of olefin metathesis catalysts have been disclosed that enable the synthesis of energetically disfavoured Z-alkenes. The application of this method to the synthesis of complex natural products has driven the development of new catalysts and furthered the understanding of their behaviour and reactivity. This digest discusses the progress made and highlights the benefits of this chemistry over more traditional protocols

    Commentary: Patient Perspectives on Artificial Intelligence; What have We Learned and How Should We Move Forward?

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    \ua9 2023, The Author(s). Artificial intelligence (AI) in healthcare has now begun to make its contributions to real-world patient care with varying degrees of both public and clinical acceptability around it. The heavy investment from governments, industry and academia needed to reach this point has helped to surface different perspectives on AI. As clinical AI applications become a reality, however, there is an increasing need to harness and integrate patient perspectives, which address the distinct needs of different populations, healthcare systems and clinical problems more closely. Despite this need, patient perspectives on AI implementation have little presence in academic literature and within implementation science and are not sufficiently considered throughout the MedTech and eHealthtech product development cycle, which brings its own challenges and opportunities. This joint patient expert/clinician commentary aims to briefly summarise views on AI. It reflects upon recommendations on how stakeholders such as clinicians and Health & MedTech small and medium-sized enterprises (SMEs) can make practical usage of these views. The recommendations of the authors centre around how to work better with patients to enable both product centric and patient centric innovation and person-centred care

    Islamic Heritage in Three Peninsulas

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    This text is a reflection about the development of Islamic heritage in three different peninsulas where Islam has played an important role in the past: Qatar, Iberia, and the Balkans. The selection of these three spaces responds to the experience and academic specialization of the authors. There is a necessary simplification of the themes discussed due to the wide amount of information that has been used in the text, which includes a wide variety of approaches from different regions, languages, and traditions of scholarship. The aim of this exercise is to offer a comparative perspective that shows the complications and chances inherent to the definition of Islamic heritage beyond the limits of given communities and territories.The participation of JCL and RL in this chater was made possible by NPRP-Grant 7-551-6-18 from the Qatar National Research Fund.Peer reviewe

    A New Model of Quantum Dot Light Emitting-Absorbing Devices

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    Motivated by the Jaynes–Cummings (JC) model, we consider here a quantum dot coupled simultaneously to a reservoir of photons and two electric leads (free-fermion reservoirs). This new Jaynes–Cummings-leads (JCL)-type model makes it possible that the fermion current through the dot creates a photon flux, which describes a light-emitting device. The same model also describes a transformation of the photon flux into the current of fermions, i.e., a quantum dot light-absorbing device. The key tool to obtain these results is the abstract Landauer–Büttiker formula.Мотивируемые моделью Джейнса-Каммингса (ДК), рассматриваем квантовую точку, соединенную одновременно с резервуаром фотонов и двумя электродами (нефермионными резервуарами). Новая модель Джейнса-Каммингса для электродов (ДКЭ) позволяет фермионному току, проходящему через точку, создавать поток фотонов, что является характеристикой светоизлучающего устройства. Та же самая модель используется для описания трансформации потока фотонов в ток фермионов, т.е. квантово-точечного светопоглощающего устройства. Ключевым средством для получения результатов стала абстрактная формула Ландауэра-Буттикера.The first two authors would like to thank the University of Aalborg and the Centre de Physique Th´eorique–Luminy for hospitality and financial support. The third author is thankful to WIAS-Berlin for the support of his several visits allowed to accomplish this project. We are thankful to the referee for the suggestion of a possible physical interpretation of our model and for remarks served for revision of the initial submission. We thank Horia D. Cornean for discussions of the JCL-model

    A New Model of Quantum Dot Light Emitting-Absorbing Devices

    No full text
    Motivated by the Jaynes–Cummings (JC) model, we consider here a quantum dot coupled simultaneously to a reservoir of photons and two electric leads (free-fermion reservoirs). This new Jaynes–Cummings-leads (JCL)-type model makes it possible that the fermion current through the dot creates a photon flux, which describes a light-emitting device. The same model also describes a transformation of the photon flux into the current of fermions, i.e., a quantum dot light-absorbing device. The key tool to obtain these results is the abstract Landauer–Büttiker formula.Мотивируемые моделью Джейнса-Каммингса (ДК), рассматриваем квантовую точку, соединенную одновременно с резервуаром фотонов и двумя электродами (нефермионными резервуарами). Новая модель Джейнса-Каммингса для электродов (ДКЭ) позволяет фермионному току, проходящему через точку, создавать поток фотонов, что является характеристикой светоизлучающего устройства. Та же самая модель используется для описания трансформации потока фотонов в ток фермионов, т.е. квантово-точечного светопоглощающего устройства. Ключевым средством для получения результатов стала абстрактная формула Ландауэра-Буттикера.The first two authors would like to thank the University of Aalborg and the Centre de Physique Th´eorique–Luminy for hospitality and financial support. The third author is thankful to WIAS-Berlin for the support of his several visits allowed to accomplish this project. We are thankful to the referee for the suggestion of a possible physical interpretation of our model and for remarks served for revision of the initial submission. We thank Horia D. Cornean for discussions of the JCL-model

    A New Model of Quantum Dot Light Emitting-Absorbing Devices

    No full text
    Motivated by the Jaynes–Cummings (JC) model, we consider here a quantum dot coupled simultaneously to a reservoir of photons and two electric leads (free-fermion reservoirs). This new Jaynes–Cummings-leads (JCL)-type model makes it possible that the fermion current through the dot creates a photon flux, which describes a light-emitting device. The same model also describes a transformation of the photon flux into the current of fermions, i.e., a quantum dot light-absorbing device. The key tool to obtain these results is the abstract Landauer–Büttiker formula.Мотивируемые моделью Джейнса-Каммингса (ДК), рассматриваем квантовую точку, соединенную одновременно с резервуаром фотонов и двумя электродами (нефермионными резервуарами). Новая модель Джейнса-Каммингса для электродов (ДКЭ) позволяет фермионному току, проходящему через точку, создавать поток фотонов, что является характеристикой светоизлучающего устройства. Та же самая модель используется для описания трансформации потока фотонов в ток фермионов, т.е. квантово-точечного светопоглощающего устройства. Ключевым средством для получения результатов стала абстрактная формула Ландауэра-Буттикера.The first two authors would like to thank the University of Aalborg and the Centre de Physique Th´eorique–Luminy for hospitality and financial support. The third author is thankful to WIAS-Berlin for the support of his several visits allowed to accomplish this project. We are thankful to the referee for the suggestion of a possible physical interpretation of our model and for remarks served for revision of the initial submission. We thank Horia D. Cornean for discussions of the JCL-model

    Early motor development is part of the resource mix for language acquisition - a commentary on Iverson's 'Developing language in a developing body: the relationship between motor development and language development'

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    Review Article and CommentariesEarly motor development is part of the resource mix for language acquisition – a commentary on Iverson's ‘Developing language in a developing body: the relationship between motor development and language development’* * Article author query * taylor cl [PubMed] [Google Scholar]CATHERINE L. TAYLORa1 c1a1 Curtin Health Innovation Research Institute, Centre for Developmental Health, Telethon Institute for Child Health Research, Population Sciences DivisionCorrespondence:c1 Address for correspondence: Catherine Louise Taylor, Telethon Institute for Child Health Research, PO Box 855, West Perth, Western Australia 6872. tel. 61+8+94897740; fax: 61+8+94897700; email: [email protected][*] The preparation of this paper was supported by National Institutes of Health funding, 2R01DC05226

    Invoking a Beginner\u27s Aid Processor by Recognizing JCL Goals

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    Typical help processors are invoked explicitly by the user or implicitly when an error occurs. Often a beginner will not know that he needs help because the inefficient use of commands will get the job done without raising errors. WIZARD is an expert system that recognizes beginner misbehaviors and can automatically start a help transaction. The WIZARD processor relies on a special purpose, dynamic, pattern matcher directed by a KL–One based knowledge network. An author studies logs of beginner interaction and develops sequence rules which parse and properly identify misbehaviors. Objects that drive the parser to understand VAX DCL commands are coded into the network and a set of semantic programming utilities is used to perform actual goal recognition. This thesis deals primarily with the implementation of such a goal recognizing expert invocation system. It is the WIZARD documentation and final working report. I discuss the motivations for the design of the system and detail the knowledge base and heuristics that support goal recognition. Some issues of generality are taken up and potential topics for later research are presented which will extend WIZARD\u27S capabilities
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