<--- Back to Details
First PageDocument Content
Casimir effect / Faster-than-light travel / Force / Levitation / Nanophase material / Center for Nanophase Materials Sciences / United States Department of Energy National Laboratories / Kilogram / Physics / Physical phenomena / Quantum field theory
Date: 2014-02-13 10:11:48
Casimir effect
Faster-than-light travel
Force
Levitation
Nanophase material
Center for Nanophase Materials Sciences
United States Department of Energy National Laboratories
Kilogram
Physics
Physical phenomena
Quantum field theory

Microsoft PowerPoint - NatureComm_Kravchenko_2013.pptx

Add to Reading List

Source URL: www.cnms.ornl.gov

Download Document from Source Website

File Size: 646,21 KB

Share Document on Facebook

Similar Documents

IEEE RTSI 2018 – Track 1 – 1.8 ENVIRONMENTAL MONITORING AND PREDICTION Environmental monitoring techniques focus on the study of physical phenomena as well as the design and implementation of policies, mechanisms, an

DocID: 1uizI - View Document

Ionosphere / Outer space / Solar phenomena / Astrophysics / Space plasmas / Astronomy / Planetary science / Plasma physics / Geomagnetic storm / Space weather / Equatorial electrojet / Solar cycle

Report of Regional Warning Centre INDIA, Annual Report A.K Upadhayaya Radio and Atmospheric Sciences Division, National Physical Laboratory, New Delhi, India Email: & rwcindia@

DocID: 1rt9q - View Document

Climatology / Physical geography / Solar phenomena / Climate forcing / Radiative forcing / Climate change / IPCC Fourth Assessment Report

         

DocID: 1rt75 - View Document

Glaciology / Earth / Physical geography / Optical materials / Ice / Poland / Lake / Arctic ice pack / Winter

Extreme Limnological Review 9, 2-3: 81-89ice phenomena on the lakes of Northern Poland 81

DocID: 1rshw - View Document

Thermodynamics / Heat transfer / Physics / Transport phenomena / Insulators / Thermal protection / Heat conduction / Physical quantities / Thermal insulation / Thermal conductivity / R-value / Thermal conduction

Journal of Undergraduate Research 1, Design and Development of High Performance Vacuum Insulation Panels (VIP) with Kevlar Thread Support V. Sood University of Illinois at Chicago, Chicago, IL 60607

DocID: 1rnuw - View Document