138 research outputs found

    Correction to:Minimizing a Wireless Passive LC-Tank Sensor to Monitor Bladder Pressure: A Simulation Study (Journal of Medical and Biological Engineering, (2017), 37, 6, (800-809), 10.1007/s40846-017-0244-2)

    No full text
    The article “Minimizing a Wireless Passive LC-Tank Sensor to Monitor Bladder Pressure: A Simulation Study”, written by Jacob Melgaard, Johannes J. Struijk, Nico J. M. Rijkhoff was originally published Online First without open access. After publication in volume [37], issue [6], page [800–809] the author decided to opt for Open Choice and to make the article an open access publication. Therefore, the copyright of the article has been changed to</p

    Supplemental Material, sj-pdf-1-ojs-10.1177_23259671211065447 - Design Features and Rationale of the BEAR-MOON (Bridge-Enhanced ACL Restoration Multicenter Orthopaedic Outcomes Network) Randomized Clinical Trial

    No full text
    Supplemental Material, sj-pdf-1-ojs-10.1177_23259671211065447 for Design Features and Rationale of the BEAR-MOON (Bridge-Enhanced ACL Restoration Multicenter Orthopaedic Outcomes Network) Randomized Clinical Trial by BEAR-MOON Design Group, Kurt P. Spindler, Peter B. Imrey, Sercan Yalcin, Gerald J. Beck, Gary Calbrese, Charles L. Cox, Paul D. Fadale, Lutul Farrow, Robert Fitch, David Flanigan, Braden C. Fleming, Michael J. Hulstyn, Morgan H. Jones, Christopher Kaeding, Jeffrey N. Katz, Peter Kriz, Robert Magnussen, Ellen McErlean, Carrie Melgaard, Brett D. Owens, Paul Saluan, Greg Strnad, Carl S. Winalski and Rick Wright in Orthopaedic Journal of Sports Medicine</p

    Optical refrigeration progress: Cooling below NIST cryogenic temperature of 123K

    No full text
    We have achieved cryogenic optical refrigeration with a record low temperature in optical refrigeration by cooling 5% wt.Yb:YLF crystal to 119K ± 1K (∼-154 C) at l=1020 nm corresponding to its E4-E5 Stark manifold resonance with an estimated cooling power of 18 mW. This demonstration confirms the predicted minimum achievable temperature (MAT). Further cooling is achievable as shown by measurements of a doping study where a 10% wt. Yb:YLF crystal with reduced parasitic heating has predicted cooling below 100K (∼-173K). © 2013 SPIE

    Dette nummers samlede anmeldelser:

    No full text
    Lilian Munk Rösing og Tania Ørum (red.): Moderne litteraturteori 10: Feminisme. Aarhus Universitetsforlag, 2012. Inger Glavind Bo: Det sker ikke for mig. Unge kvinders fortællinger om kærestevold. Dansk Psykologisk Forlag, 2013. Michal Rachel Nahman: Extractions: An Ethnography of Reproductive Tourism. Palgrave McMillan. A. B. Elsberg, C. Aa. Due, C. L. Dideriksen, C. D. Alexandersen, M. L. Melgaard og S. H. Inanloo (red.): Kvinde kend din krop – En håndbog. Tiderne Skifter, 2013. Hilde Danielsen, Eirinn Larsen, Ingeborg W. Owesen: Norsk likestillingshistorie 1814-2013. Fagbokforlaget. 2013

    dermaOXY skin assay: effect and evidence

    No full text
    This text is a videnkupon report supported by the Danish Innovation Fonds and conducted by L.M. and B.K. for dermaOXY (by MedicTinedic ApS, Varde, Denmark). It involves two dermaOXY products: dermaOXY HYALURON SERUM and dermaOXY SYN SERUM. These are applied to the facial skin in combination with a 90 percent pure oxygen gas stream. Occasionally, the treatment is supported by low-level light exposure, prepared by mechanical microporation of skin or both. The dermaOXY skin improvement approach is used in treatments by clinics spread across 23 countries [1]. This text also includes an assessment of the instrument set DermaLab®Combo, which is used for the physical characterization of skin status after treatment.The report consists of four main parts, dedicated to1. the properties of human skin2. the anti-aging methods applied by the dermaOXY treatment3. the analytical methods applied by dermaOXY to characterize the effects of thedermaOXY treatment4. an evaluation of the aboveSelected aspects of the human skin are described in order to provide a generalbackground of knowledge. In more detail: the three layers of skin (epidermis, dermis and hypodermis) and their constituents are described. This knowledge is important for assessing the dermaOXY approach to slow down (or better yet inhibit) the phenotypical signs of aging. Professor Beate Klösgen and B.Sc. Lasse Menov performed the study and wrote this report. Lars Melgaard, COO of dermaOXY, provided the information on the dermaOXY approach. Doris Westphal from Westphals Fabrikker A/S, Sønder-Omme, Denmark kindly supplied data about the sera and their constituents. Additional information was acquired during an open discussion among the above mentioned persons and Lars L. Kristensen from Lambert Kristensen ApS, Esbjerg, Denmark. This exchange of information was organized by L. Melgaard and hosted by D. Westphal

    dermaOXY skin assay: effect and evidence

    No full text
    This text is a videnkupon report supported by the Danish Innovation Fonds and conducted by L.M. and B.K. for dermaOXY (by MedicTinedic ApS, Varde, Denmark). It involves two dermaOXY products: dermaOXY HYALURON SERUM and dermaOXY SYN SERUM. These are applied to the facial skin in combination with a 90 percent pure oxygen gas stream. Occasionally, the treatment is supported by low-level light exposure, prepared by mechanical microporation of skin or both. The dermaOXY skin improvement approach is used in treatments by clinics spread across 23 countries [1]. This text also includes an assessment of the instrument set DermaLab®Combo, which is used for the physical characterization of skin status after treatment.The report consists of four main parts, dedicated to1. the properties of human skin2. the anti-aging methods applied by the dermaOXY treatment3. the analytical methods applied by dermaOXY to characterize the effects of thedermaOXY treatment4. an evaluation of the aboveSelected aspects of the human skin are described in order to provide a generalbackground of knowledge. In more detail: the three layers of skin (epidermis, dermis and hypodermis) and their constituents are described. This knowledge is important for assessing the dermaOXY approach to slow down (or better yet inhibit) the phenotypical signs of aging. Professor Beate Klösgen and B.Sc. Lasse Menov performed the study and wrote this report. Lars Melgaard, COO of dermaOXY, provided the information on the dermaOXY approach. Doris Westphal from Westphals Fabrikker A/S, Sønder-Omme, Denmark kindly supplied data about the sera and their constituents. Additional information was acquired during an open discussion among the above mentioned persons and Lars L. Kristensen from Lambert Kristensen ApS, Esbjerg, Denmark. This exchange of information was organized by L. Melgaard and hosted by D. Westphal

    Spectral non-self-adjoint analysis of complex Dirac, Pauli and Schrodinger operators with constant magnetic fields of full rank

    No full text
    We consider Dirac, Pauli and Schrodinger quantum Hamiltonians with constant magnetic fields of full rank in L-2(R-2d), d >= 1, perturbed by non-self-adjoint (matrix-valued) potentials. On the one hand, we show the existence of non-self-adjoint perturbations, generating near each point of the essential spectrum of the operators, infinitely many (complex) eigenvalues. On the other hand, we give asymptotic behaviours of the number of the (complex) eigenvalues. In particular, for compactly supported potentials, our results establish non-self-adjoint extensions of Raikov-Warzel [Rev. in Math. Physics 14 (2002), 1051-1072] and Melgaard-Rozenblum [Commun. PDE. 28 (2003), 697-736] results. So, we show how the (complex) eigenvalues converge to the points of the essential spectrum asymptotically, i.e., up to a multiplicative explicit constant, as1/d! (vertical bar 1nr vertical bar/1n vertical bar 1nr vertical bar)(d), r SE arrow 0,in small annulus of radius r > 0 around the points of the essential spectrum.Chilean Fondecy
    corecore