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IIR document
Experimental studies of layered AMRs using MnFeP1-xAsx.
The effect of boron in the MnFe(P,As) material.
Experimental investigation of the effect of thermal hysteresis in first order material MnFe(P,As) applied in an AMR device.
Arsenic heats up iron superconductors.
Development of a practical magnetic separation system: removal of arsenic from geothermal water.
[In Japanese. / En japonais.]
Nearly isotropic superconductivity in (Ba,K)Fe2As2.
Materials for magnetic refrigeration: structure and properties.
Giant magnetocaloric effect in Mn(1-t)[Ti(0.5)V(0.5)](t)As compounds near room temperature.
Electronic structure calculations of ferromagnetic and paramagnetic state in magnetocaloric systems: Mn(1-x)T(x)As and Fe(2-x)T(x)P.
First order magnetic transitions described by three degrees of freedom: an appropriate Clausius-Clapeyron equation and application to MnAs and Gd(5)Ge(2)Si(2) compounds.
Experimental investigation of the effect of thermal hysteresis in MnFeP1-xAsx materials applied in an AMR device.
Heat capacity and direct determination of the magnetocaloric effect in MnAs(1-x)Sb(x).
Recent progress of magnetocaloric effect of Mn-As-Sb.
Variation of the transition-metals ratio on Mn(1-x)Fe(1+x)P(0.6)Si(0.3)Ge(0.1) compounds.
Refrigeration sector monitoring
2 results
How to reuse the condensate water from air conditioners?
Review of the different uses of the condensate water rejected by air conditioners.
Optical cavity cooling: a quantic leap for optical refrigeration?
A team of researchers at the Niels Bohr Institute have combined laser cooling technology with nano-physics, and have discovered a revolutionary way of bringing a semi-conductor nano-membrane’s temperature down to -269°C.
Encyclopedia of Refrigeration
1 result
Ice cream manufacturing, environmental impact and market data
From a physico-chemical point of view, ice cream is a complex, frozen multiphase mixture. The manufacturing process includes several stages of freezing which are described in this...