Results 231 to 240 of about 191,371 (279)
Some of the next articles are maybe not open access.
Electrochemical Isotope Effect and Lithium Isotope Separation
Journal of the American Chemical Society, 2009A large electrochemical isotopic effect is observed upon the electrodeposition of lithium from solutions of propylene carbonate producing isotopically light metal deposits. The magnitude of fractionation is controlled by the applied overpotential and is largest close to equilibrium.
Jay R, Black +4 more
openaire +2 more sources
Physical Review Letters, 1980
A new method for separating ions with different charge-to-mass ratio is described. It is based on the ponderomotive effect near the ion-cyclotron resonance.
openaire +1 more source
A new method for separating ions with different charge-to-mass ratio is described. It is based on the ponderomotive effect near the ion-cyclotron resonance.
openaire +1 more source
Journal of Soviet Laser Research, 1982
At the present time there is no doubt that the unique ability of laser radiation to act only on the desired isotopes and not on the entire mixture as a whole constitutes a tremendous advantage of the laser methods of isotope separation. Such methods are being actively developed in many of the world's laboratories.
openaire +1 more source
At the present time there is no doubt that the unique ability of laser radiation to act only on the desired isotopes and not on the entire mixture as a whole constitutes a tremendous advantage of the laser methods of isotope separation. Such methods are being actively developed in many of the world's laboratories.
openaire +1 more source
1969
Publisher Summary This chapter focuses on the isotope separator. The chapter designs a multipurpose β-γ-radioactive isotope separator with an output of 10 mg/h for the most abundant separated isotope. The most intensive β-γ-radioactive isotopes are found in fission products.
openaire +1 more source
Publisher Summary This chapter focuses on the isotope separator. The chapter designs a multipurpose β-γ-radioactive isotope separator with an output of 10 mg/h for the most abundant separated isotope. The most intensive β-γ-radioactive isotopes are found in fission products.
openaire +1 more source