Overview of Theoretical and Experimental Progress in Low Energy Nuclear Reactions (LENR)

Thursday 22 Mar 2012, 16:30 → 18:00 Europe/Zurich

500/1-001 - Main Auditorium (CERN)

Francesco Celani, Yogendra Srivastava

An overview will be given on the main progress made –since March 1989- through experimental/theoretical studies on thermal/nuclear anomalies observed in forced interactions of Hydrogen isotopes (H, D), in non-equilibrium conditions, with pure or alloyed materials (mainly Palladium, Nickel). Most of the experiments used electrolytic environments at moderate temperatures (20-50°C). More recently, gas environments have been used at higher temperatures (between 200-400°C and even temperatures between 500-900°C have been employed). Specific nanostructures have begun to play a crucial role both in basic studies as well as in, recently claimed, technological/industrial applications. A plethora of theoretical models have been proposed to explain several experimental anomalies in LENR. A brief description of a weak interaction model shall be presented that claims to explain almost ALL of the anomalous effects found so far.

Poster Poster.pdf

Slides

• CERN220212_2203.pdf
• cern_colloquium6.pdf
• cern_colloquium6.ppt
• Dayabayresults_Geneve.pdf
• Dayabayresults_Geneve.ppt
• LENTrans_Iwamura_Celani.pdf

1 Overview of Theoretical and Experimental Progress in LENR

Speaker: Yogendra Srivastava (University of Perugia Perugia Italy)

Video in CDS Video in CDS

2 Overview of Theoretical and Experimental Progress in LENR

Speaker: Francesco Celani

Video in CDS Video in CDS