15,055 research outputs found

    Jones, Mj, VX46248

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/396000Surname: JONES. Given Name(s) or Initials: MJ. Military Service Number or Last Known Location: VX46248. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 45659.231242 Item: [2016.0049.28293] "Jones, Mj, VX46248

    An electromagnetic, vibration-powered generator for intelligent sensor systems

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    This paper describes the design of miniature generators capable of converting ambient vibration energy into electrical energy for use in powering intelligent sensor systems. Such a device acts as the power supply of a microsystem which can be used in inaccessible areas where wires can not be practically attached to provide power or transmit sensor data. Two prototypes of miniature generator are described and experimental results presented. Prototype A is based around two magnets coupled to a coil attached to a cantilever; prototype B is based around four magnets. For prototype A, experimental results are given for its resonant frequency and its open circuit and loaded output as a function of vibration amplitude. For prototype B, experimental results are given for the generator's Q factor in air and vacuum, its output voltage as a function of vibration amplitude as well as its magnetic field strength. This generator has been tested on a car engine and shown to produce a peak power of 3.9 mW with an average power of 157 micro watts

    An electromagnetic vibration powered generator for intelligent sensor systems

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    This paper describes the design of a miniature generator capable of converting ambient vibration energy into electrical energy for use in powering intelligent sensor systems. Such a system can be used in inaccessible areas where wires can not be practically attached to provide power or transmit sensor data. A miniature generator, based around four magnets coupled to a coil attached to a cantilever, is discussed in detail. The miniature generator has been tested on a car engine and has been shown to produce a peak power of 3.9 mW with an average power of 157 µW. Experimental results are also given for the generator's Q factor in air and vacuum, the output voltage as a function of vibration amplitude as well as its magnetic field strength

    Analisis Tindak Tutur Pada Tuturan Peter Parker Dan Michelle Jones Pada Film Spiderman: “No Way Home”

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    Judul penelitian ini adalah "Analisis Tindak Tutur dalam Tuturan Peter Parker dan Michelle Jones dalam Film Spiderman: "No Way Home". Penelitian ini mengkaji tipe tindak tutur ilokusi dan perlokusi dalam tuturan karakter Peter Parker dan Michelle Jones (MJ) dalam film Spiderman: No Way Home. Tujuan penelitian ini adalah untuk menggambarkan jenis tindak tutur ilokusi dan perlokusi dalam tuturan Peter Parker dan Michelle Jones MJ dalam film tersebut. Objek yang dianalisis dalam penelitian ini adalah dialog antara Peter Parker dan MJ dalam film Spiderman: "No Way Home". Penelitian ini menggunakan teori yang dikembangkan oleh Searle (1979) untuk menganalisis tipe tindak tutur ilokusi dan perlokusi. Metode yang digunakan dalam penelitian ini adalah analisis kualitatif yang melibatkan empat tahap: (1) identifikasi tindak tutur, (2) klasifikasi tindak tutur, (3) analisis konteks, dan (4) penarikan kesimpulan berdasarkan hasil analisis. Hasil penelitian menunjukkan bahwa terdapat 28 data tipe ilokusi dan perlokusi dalam tuturan karakter Peter Parker dan Michelle Jones (MJ) dalam film Spiderman: "No Way Home". Dari 28 data tersebut, terdapat 28 tuturan lokusi. Dalam 28 data tuturan lokusi, terdapat 5 tipe tindak tutur ilokusi, yaitu 4 data tipe tindak tutur ilokusi assertive, 9 data tipe tindak tutur directive, 6 data tipe tindak tutur commisive, 7 data tipe tindak tutur expressive, dan 2 data tipe tindak tutur declarative. Hasil penelitian menunjukkan bahwa tipe tindak tutur directive merupakan yang paling sering digunakan karena banyaknya perintah yang diberikan kepada Peter Parker dan MJ dalam film Spiderman: "No Way Home"

    Major Jones, part of staff working with Captain Leo Leonard

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    Photo of Major Jones, part of staff working with Captain Leo Leonard while he was Provost General withe U.S. Army, Europe, in Stuttgart, Germany, in the early 1950s. Reverse side of photograph: Mj Jone

    Transformation matrices for the Mueller–Jones formalism

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    © 2007 Elsevier GmbH. One of the authors, R.E.L., expresses his gratitude to CONACYT (Project 46969-F), to CONCYTEG (05-04-K117-066-A02) and to Grupo Santander (Program Visitantes Distinguidos at the Universidad Complutense de Madrid) for the support provided for the realization of this work.The Mueller–Jones (MJ) or pure Mueller matrix formulation has been reported by using two different matrix transformations in a condensed representation. The possibility to find other transformation matrices is explored. A complete set of unitary operators (R) is found to be closely related with the MJ matrices and with the evolution of pure states on the Poincaré sphere surface. We propose an alternative deduction for the condensed representation of the MJ matrices, obtained by using the Kronecker product operation and use of R unitary matrices as a tool to combine different Mueller matrices and changes of polarized states on the Poincarè sphere surface. Finally, it is shown explicitly that the columns of the transformation matrices are the eigenvectors of the MJ matrix associated to a non-depolarizing optical system and a corollary is established as a criterion to differentiate a Mueller matrix from an MJ matrix.Consejo Nacional de Ciencia y Tecnología (CONACYT), MéxicoConsejo de Ciencia y Tecnologia del Estado de Guanajuato (CONCYTEG), MéxicoGrupo SantanderDepto. de ÓpticaFac. de Ciencias FísicasTRUEpu

    Self-compression of 4.9 µm pulses to sub-40 fs with 2 mJ energy in Zinc Sulfide

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    Nonlinear self-compression of few-cycle multi-mJ pulses at 4.9 µm in ZnS is presented. 80 fs input pulses are compressed to 37 fs with 2.1 mJ energy at a 1 kHz repetition rate. © 2024 The Author(s
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