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Thermal Optimization of Electronic Equipment: Form Factor Improvement

2009 Third UKSim European Symposium on Computer Modeling and Simulation, 2009
The need to have equipments with a low form factor, defined as depth divided by the width multiplied by the height, is very essential for a particular product to be marketable. Thus, when an old product needs to be customized to a new form factor, while maintaining the standardized components, there will be distorted thermal distribution. In this study,
Kahar Osman   +3 more
openaire   +2 more sources

Magnetic form-factors by 180° electron scattering

Physics Letters, 1962
Elastic magnetic scattering peaks resulting from the scattering of 41.5- Mev. electrons through 180 deg are shown for Li/sup 6/ and Li/sup 7/. Cross sections are (4 plus or minus 2) x 10/sup -33/ and (5.8 plus or minus 0.4) x 10/sup -32/ cm/sup 2//sr for Li/sup 6/ and Li/sup 7/, respective ly.
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Fine structure in the dynamic form factor of an electron liquid

Physical Review B, 1984
Using a simple model for the quasiparticle damping, we show how the fine structure observed in the dynamic form factor of an electron liquid can be understood on purely kinematic considerations. We also show that more realistic calculations of the self-energy including vertex corrections leave the qualitative features of the model unchanged.
Giovanni Vignale, Shafiqur Rahman
openaire   +2 more sources

Scaling Printable Zn–Ag2O Batteries for Integrated Electronics

Advanced Energy Materials, 2019
Printed batteries are an emerging solution for integrated energy storage using low‐cost, high accuracy fabrication techniques. While several printed batteries have been previously shown, few have designed a battery that can be incorporated into an ...
Rajan Kumar   +3 more
semanticscholar   +1 more source

Amoeba‐Inspired Self‐Healing Electronic Slime for Adaptable, Durable Epidermal Wearable Electronics

Advanced Functional Materials
Epidermal electronics has garnered significant research attention due to its promising applications in wearable human‐machine interfaces and intelligent healthcare sensing.
Yu Feng   +8 more
semanticscholar   +1 more source

Magnetic form factor of electrons in 3d bands

AIP Conference Proceedings, 1975
The formalism for calculating the spin density or magnetic form factor for tight‐binding band electrons is considered in the case where nearest‐neighbor overlap is not negligible. The formalism leads to a description of the system in terms of a two‐component form factor, one of which is identical to the atomic form factor and the other is related to ...
openaire   +2 more sources

Emerging Thermoelectric Generators Based on Printed and Flexible Electronics Technology

Italian National Conference on Sensors, 2020
Thermoelectrics (TE) presents great potential for harvesting electrical energy from waste heat, and for providing on-demand heating and cooling. However, the widespread of TE devices has been limited so far by their costly fabrication and restrictive ...
F. Molina‐Lopez
semanticscholar   +1 more source

Energy Efficiency of Low Form Factor Cooling Devices

, 2007
With increasing attention to the energy efficiency of consumer and commercial products, thermal engineering and science community is devoting greater effort and attention to the design and implementation of energy-efficient cooling solutions.
M. Arik   +3 more
semanticscholar   +1 more source

Three-pion form factor from electron-positron experiments

Il Nuovo Cimento, 1961
The reaction e+ + e- yields + + pi - + pi 0 mentally, following preliminary calculations based on previous work (N. Cabibbo and R. Gatto, Phys. Rev. Letters 4, 3l3(l960)). A 3 pi resonance peak was found at E 525 Mev.
G. Da Prato, G. Putzolu
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Electron form factors up to fourth order. - I

Il Nuovo Cimento A, 1972
The explicit results of the analytic evaluation of the discontinuities of the electron form factors and of their zero-momentum-transfer values, up to the fourth order of the perturbative expansion of QED in the electric charge, are presented. Asymptotic and threshold behaviours are discussed.
R. Barbieri, E. Remiddi, J. A. Mignaco
openaire   +3 more sources

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