cold fusion future collaboration Page
The Virtual Laboratory
Cold Fusion Future has established a mode of research we refer to as a Virtual Laboratory. Over the years as we have worked to understand bubble physics, cavitation, and solid-state micro fusion we have found a requirement for a broad multi-disciplinary approach. Being a small organization the way we have been able to implement and support multi-disciplinary studies is through our virtual lab which brings together scientists, engineers and researchers from industry, government, academia, and research laboratories to share the work load and findings in research and development of topics of technological importance. Cold Fusion Future has operated its devices on several occasions at Los Alamos National Laboratory and SRI International. Cold Fusion Future will soon be providing equipment to a number of other laboratories.
Collaborating scientists participating in our Virtual Lab include those from the Electric Power Research Institute, Los Alamos National Laboratory, Lawrence Berkley National Laboratory, Pacific Northwest National Laboratory, Rockwell International Rocketdyne, the US Naval Research Laboratory, US Bureau of Mines Helium Laboratory, Batelle, Lockheed, SRI International, Balez Labs, Charles Evans and Associates, MITI NHE laboratory Japan, Portland State University, MIT, Brigham Young University, Stanford, University of Marseille, and a number of individuals not associated with specific organizations.
We haven't done nearly enough and are always actively seeking to encourage others to take an interest in this work to help unravel the puzzles. Recently we have made a decision to support more active participation in our methods by providing research apparatus to qualified research groups. We have several different devices now in use in our own lab which reliably produce the effects we observe and which we believe are ideal test beds for studying a variety of effects characteristic of the phenomenon.
We are willing to install research devices in collaborating labs who are capable of funding a serious effort including cost to produce and support the appropriate research devices. Via research licensing agreements with these groups we are offering an opportunity to join with us in understanding the mechanisms of solid state fusion and developing practical applications.
If you are interested in using a d2fusion.com device in your lab visit our laboratory device page for more details. If you are interested in a collaborative research in analytical or design aspects with d2fusion.com's Virtual Lab and have expertise you think might be appropriate we invite you to contact Russ George at Cold Fusion Future to initiate an exploratory dialog. We'd like to know who your are, what your area of interest and expertise is, your organization, and any other information you can provide (a web site?).
We
are currently seeking to explore topics in the following areas:
Neutron activation analysis
of materials (NAA and PGNAA)
Thermal imaging of
reactions in process
In situ measurement of low
energy and non penetrating radiation
Novel tritium and helium
measurement
Acoustic characterization
of the reaction events
Materials Science in
development of appropriate materials
Mass spec for measurement
3He
Electron microscopy studies
of physical damage to targets
Cavitation loading hydrogen
in metals
Optimization of acoustic
input, signal processing and control
Nano
material development and production
Engineering
development of research and consumer applications