How To Build A Time Machine

Time travel makes great science fiction, but can it really be done? Travel into the future is already a reality, but visiting the past is a much tougher proposition, and may require fantastic resources such as a wormhole in space. Nevertheless, if going back in time is allowed, even in principle, then what about all those paradoxes that make time travel stories so intriguing?

Planetary Science Decadal Survey Rollout Town Hall Meeting

The Solar System Decadal Survey report for 2013-2022 will be made public in a presentation on March 7 at the Lunar and Planetary Science Conference in Houston, and the document will be available on the website of the National Research Council from that time onward.

Biological and Physical Considerations of Unfrozen Water Films: Mars and Antarctic Dry Valleys

Recent work in the Antarctic has found viable microbes in the dry permafrost of University Valley, relying on only interfacial water to effect exchange with the environment. The discovery of nearly pure ice at the Phoenix landing site is a possible indicator of in situ ice segregation, a physical process that depends on the same films of unfrozen water. We have recently found that even at temperatures as low as 245K, the forces arising in these unfrozen films are sufficient to initiate lens formation.

A New look at what Life is and how it began

Life has two unique processes. The first is precision assembly, in which the shape of a molecule is selected, and it is “glued” to another precisely selected molecule. The second is when the assembler-glue-selector device exactly copies itself. The first item produced must be a structure so as to be survival-selected. In turn this selection needs to have the eventual effect of selecting the assembler-glue-selector. The system requires the development of two different polymers, one for structures, the other for information transfer.

The Evolving Intersection of Physics and Biology

 In April 1953, Watson and Crick largely defined the program of 20^th century biology: obtaining the blueprint of life encoded in the DNA. Fifty years later, in 2003, the sequencing of the human genome was completed. Like any major scientific breakthrough, the sequencing of the human genome raised many more questions than it answered. Dr. Liphardt will discuss some of the big open problems in cell and developmental biology, and he'll explain why approaches, tools, and ideas from the physical sciences are currently reshaping biological research.

Astrobiology of Basaltic glass in the oceanic basins: a source for early life nutrients?

Brad Bailey will explain how basaltic glass could be a source of energy and/or nutrients for early life. This has enormous Astrobiological implications as recent work has shown that Earth’s late heavy bombardment period would not have been energetic enough to completely sterilize the Earth’s surface and life may have been preserved through this period by residing within the deep crust.

The EvoGrid: Building an Origin of Life Simulator & Its Implications for Life, the Universe and Everything

Bruce Damer will present the current state of the EvoGrid, a worldwide, multi-disciplinary project to simulate the chemical origin of life on Earth or as it might have occurred elsewhere in ours or other universes. When operational in 2010 the prototype EvoGrid will employ a central grid of computers to generate "digital primordial soups" and then, inspired by SETI, an even larger set of observer computers operating as @Home screen savers will be employed to look for signs of emergent complexity within the soups.

The Inner Structure of a Floating Water Bridge

When high voltage is applied to distilled water filled into two beakers close to each other, a water connection forms spontaneously, giving the impression of a floating water bridge (Fuchs et al. 2007 J. Phys. D: Appl. Phys. *40* 6112-4, 2008 J. Phys. D: Appl. Phys. *41* 185502, Woisetschläger et al. 2009 Exp. Fluids 2009 (accepted)). This phenomenon is of special interest, since it comprises a number of phenomena currently tackled in modern water science.

Detecting Organics using Fluorescence Spectroscopy

Many important organic molecules fluoresce strongly enough to allow for their detection in terrestrial soils at the ppm level or better. Dr. Bramall will discuss a method has advantages over other methods of detecting organics in that it requires no reagents, is very quick, requires no sample handling, and can be rather specific. He has have developed several instruments and instrument concepts that will be presented.

Pavilion Lake - Diving Deep to get us to the Moon and Mars

The Pavilion Lake Research Project (PLRP) is an international, multi-disciplinary, science and exploration effort to explain the origin of freshwater microbialites [link] in Pavilion Lake, British Columbia, Canada. Fossil microbialites represent some of the earliest remnants of life on ancient Earth, and were common from ~2.5 billion to 540 million years ago. Today, microbialites are found in what have been deemed ‘extreme’ environments.


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