Rain boosts mozzie numbers

March 23, 2010 By Leave a Comment

Rain earlier this month has brought about a spike in mosquito numbers along the Murray River in Victoria.

Authorities say mosquitos have been breeding in water still sitting in containers and on the ground from rain, and people will have fewer problems if they tip out any remaining water.

Mildura Rural City Council’s Stuart Maher says mosquito trapping is showing higher numbers but no virus activity that is cause for concern.

“Mosquitoes that carry Murray Valley encephalitis, they’re the ones that we are really looking for and we send live ones down to Melbourne for virus isolation and we know within a day or two,” he said.

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Expert backs cane toad eradication plan

March 19, 2010 By Leave a Comment

A far north Queensland cane toad expert says a Federal Government plan designed to tackle the cane toad scourge is simple but has merit.

The $2 million draft plan has been released for public comment.

The plan will try to coordinate efforts across the nation to manage the effects of cane toads on the environment.

It identifies the native species most at risk from cane toads and also looks at the best ways to get rid of the species, including trapping.

Professor Ross Alford from James Cook University says the draft plan has merit.

“I think it’s a very sensible plan,” he said.

“It acknowledges the fact that we really at the moment don’t have any way to control the toads on a broad scale across the landscape.

“Developing a way to do it is going to be a long-term, expensive project and what we really need to do now is identify exactly what damage the toads cause.”

Professor Alford says he supports the findings that trapping cane toads is one of the most effective methods of controlling numbers.

“A trap is really the most effective way that we know of for controlling them on a local scale,” he said.

“If you’ve got a bit of habitat that you want to really protect from cane toads by removing as many as possible, it’s much more effective to put traps out, then go visit them everyday and clear them out.”

Cane toad experts have welcomed the draft plan to help wipe out the pest.

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Scientists create world’s smallest semiconductor laser

September 1, 2009 By Leave a Comment

Washington, August 31 (ANI): Researchers at the University of California (UC), Berkeley, have created the world’s smallest semiconductor laser, capable of generating visible light in a space smaller than a single protein molecule, an invention that breaks new ground in the field of optics.

The UC Berkeley team not only successfully squeezed light into such a tight space, but found a novel way to keep that light energy from dissipating as it moved along, thereby achieving laser action.

While it is traditionally accepted that an electromagnetic wave – including laser light – cannot be focused beyond the size of half its wavelength, research teams around the world have found a way to compress light down to dozens of nanometers by binding it to the electrons that oscillate collectively at the surface of metals.

This interaction between light and oscillating electrons is known as surface plasmons.

Scientists have been racing to construct surface plasmon lasers that can sustain and utilize these tiny optical excitations.

However, the resistance inherent in metals causes these surface plasmons to dissipate almost immediately after being generated, posing a critical challenge to achieving the buildup of the electromagnetic field necessary for lasing.

Zhang and his research team took a novel approach to stem the loss of light energy by pairing a cadmium sulfide nanowire – 1,000 times thinner than a human hair – with a silver surface separated by an insulating gap of only 5 nanometers, the size of a single protein molecule.

In this structure, the gap region stores light within an area 20 times smaller than its wavelength.

Because light energy is largely stored in this tiny non-metallic gap, loss is significantly diminished.

With the loss finally under control through this unique “hybrid” design, the researchers could then work on amplifying the light.

Trapping and sustaining light in radically tight quarters creates such extreme conditions that the very interaction of light and matter is strongly altered, the study authors explained.

“This work shatters traditional notions of laser limits, and makes a major advance toward applications in the biomedical, communications and computing fields,” said Xiang Zhang, professor of mechanical engineering and director of UC Berkeley’s Nanoscale Science and Engineering Center.

The achievement helps enable the development of such innovations as nanolasers that can probe, manipulate and characterize DNA molecules; optics-based telecommunications many times faster than current technology; and optical computing in which light replaces electronic circuitry with a corresponding leap in speed and processing power.

Scientists hope to eventually shrink light down to the size of an electron’s wavelength, which is about a nanometer. (ANI)

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121 breeding tigers in Nepal spells new ray of hope for the species

July 29, 2009 By Leave a Comment

Washington, July 28 (ANI): Conservationists worrying about the fate of the majestic tiger can now breathe a sign of relief as about 121 breeding tigers are estimated to have been found in Nepal.

The figures announced by the Nepal Government’s Department of National Parks and Wildlife Conservation (DNPWC) shows the presence of 121 (100 – 194) breeding tigers in the wild within the four protected areas of Nepal.

The 2008 tiger population estimate was jointly implemented by the DNPWC, Department of Forests (DOF), WWF, National Trust for Nature Conservation (NTNC) with support from Save The Tiger Fund (STF), WWF-US, WWF-UK, WWF International and US Fish and Wildlife Service (USFWS).

“To obtain reliable population estimates of wide ranging species like the tiger, it is important to undertake the survey simultaneously in all potential habitats,” said Dr. Rinjan Shrestha, Conservation Biologist with WWF Nepal.

Previous studies had been undertaken in different time periods and at different spatial scales.

“To derive information on both abundance and distribution of tigers, the current survey employed two methods – Camera Trapping method inside the protected areas and Habitat Occupancy survey both inside and outside the protected areas,” said Dr. Shrestha.

“The tiger numbers have increased in Chitwan but decreased in Bardia and Shuklaphanta,” said Anil Manandhar, Country Representative, WWF Nepal.

“In spite of the decade long insurgency, encroachment, poaching and illegal trade, the present numbers is a positive sign, but we can’t remain unworried.

The declining numbers in western Nepal has posed more challenges, needing a concerted effort to save this charismatic endangered species focusing on anti-poaching and illegal wildlife trade,” he added.

The Government of Nepal has approved and launched the ‘Tiger conservation Action Plan 2008- 2012′.

A comprehensive management plan has been devised in which the target is to increase the population of tigers by 10 per cent within the first 5 year period of the plan implementation.

“Tigers can not be saved by the effort of a single individual or a single organization,” said Gopal Prasad Upadhyay, Director General, DNPWC.

“The transboundary relation with India needs to be strengthened further and all organizations should work together to conserve tigers,” he added. (ANI)

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Lasers can be used to lengthen quantum bit memory by 1,000 times

June 27, 2009 By Leave a Comment

Washington, June 25 (ANI): Physicists have found that lasers can be used to drastically prolong the shelf life of quantum bit memory, the 0s and 1s of quantum computers, by 1,000 times.

These precarious bits, formed in this case by arrays of semiconductor quantum dots containing a single extra electron, are easily perturbed by magnetic field fluctuations from the nuclei of the atoms creating the quantum dot.

This perturbation causes the bits to essentially forget the piece of information they were tasked with storing.

A quantum dot is a semiconductor nanostructure that is one candidate for creating quantum bits.

The scientists, including the University of Michigan’s Duncan Steel, used lasers to elicit a previously undiscovered natural feedback reaction that stabilizes the quantum dot’s magnetic field, lengthening the stable existence of the quantum bit by several orders of magnitude, or more than 1,000 times.

Because of their ability to represent multiple states simultaneously, quantum computers could theoretically factor numbers dramatically faster and with smaller computers than conventional computers.

For this reason, they could vastly improve computer security.

“In our approach, the quantum bit for information storage is an electron spin confined to a single dot in a semiconductor like indium arsenide,” said Steel.

“One of the serious problems in quantum computing is that anything that disturbs the phase of one of these spins relative to the other causes a loss of coherence and destroys the information that was stored,” he added.

A major cause of information loss in a popular class of semiconductors called 3/5 materials is the interaction of the electron (the quantum bit) with the nuclei of the atoms in the quantum dot holding the electron.

Trapping the electron in a particular spin, as is necessary in quantum computers, gives rise to a small magnetic field that couples with the magnetic field in the nuclei and breaks down the memory in a few billionths of a second.

By exciting the quantum dot with a laser, the scientists were able to block the interaction of these magnetic fields.

The laser causes an electron in the quantum dot to jump to a higher energy level, leaving behind a charged hole in the electron cloud.

This hole, or space vacated by an electron, also has a magnetic field due to the collective spin of the remaining electron cloud.

It turns out that the hole acts directly with the nuclei and controls its magnetic field without any intervention from outside except the fixed excitation by the lasers to create the hole. (ANI)

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