Search This Blog

Thursday, January 23, 2014

Physicists Produce Quantum Version of the Cheshire Cat

2014-01-22 16:45
http://news.sciencemag.org/physics/2014/01/physicists-produce-quantum-version-cheshire-cat

















In Lewis Carroll's famous children's novel Alice's Adventures in Wonderland, Alice meets the Cheshire Cat, which disappears and leaves only its grin behind. Now, physicists have created a quantum version of the feline by separating an object—a neutron—from its physical property—its magnetism. The experiment is the latest example of how quantum mechanics becomes even weirder using a technique called weak measurement and could provide researchers with an odd new experimental tool for performing precision measurements.

In quantum physics, tiny particles can be in opposite conditions or states at the same time, a property known as superposition. For instance, an electron can literally spin in opposite directions simultaneously. Try to measure the spin, however, and that state will "collapse" so that the electron is found spinning one way or the other. That's because quantum theory generally forbids you to measure a particle's state without altering it—at least ordinarily.

But in 1988, Yakir Aharonov, a theorist at Tel Aviv University in Israel, and colleagues dreamed up a way to measure delicate quantum states without disturbing them through so-called weak measurements. There's a price to pay, of course. A weak measurement can't reveal anything about an individual particle, but only the behavior of many particles all in the same state. And it requires not only putting the particles in just the right state to begin with, but also picking only those in a specific different state in the end, so the whole experiment has to be analyzed retrospectively. Nevertheless, weak measurements can probe phenomena that ordinary measurements can't, and last November Aharonov and colleagues described how they could be used to realize a quantum Cheshire Cat.

Here’s the idea. A beam of neutrons all magnetized in the same direction, say right, enters a device called a neutron interferometer (see diagram). The beam strikes a beam splitter, which splits not only the macroscopic beam but also the quantum wave describing each neutron. So after the beam splitter, each neutron is in the bizarre quantum state: in path 1, polarized right, and in path 2, polarized right. This is the "preselected" state. After taking different paths, the waves recombine at the second beam splitter and interfere with each other so that the neutrons all exit the interferometer through one of two "ports," the light port.

Now, here's where things get weird. Experimenters install a few gadgets before the second beam splitter that work like a filter so that if a neutron is in the state in path 1, polarized right and in path 2, polarized left—the "postselected state”—it will come out the dark port instead. That may sound superfluous, because each neutron is not in that state. However, the two states have a common part—in path 1, polarized right—and that overlap ensures that some neutrons emerge from the dark port, just by virtue of trying to filter out this postselected state.

If you look at only these postselected events, you can say for sure that the neutron went through path 1. That's because the only parts of the preselected and postselected states that overlap are the ones for path 1. On the other hand, if you try to measure the magnetism, you'll find that all the magnetism is in path 2. That's because to know the magnetism is there, you essentially have to apply a magnetic field that flips the neutron’s polarization. So after the measurement, the parts of the altered preselected state and postselected state that are identical are the ones for path 2.
The traditional interpretation is that the whole argument is moot. If you reach into path 1 with a neutron detector, then that measurement alters the original quantum state, making it pointless to speculate about what you would have seen if you'd measured magnetism in the path 2 instead, and vice versa. According to Aharonov’s theory though, the measurements could be done weakly, so that they would not alter the neutrons' state. And that's exactly what Yuji Hasegawa of the Vienna University of Technology and colleagues have done, as they report in a paper posted to the arXiv preprint server.

Using a neutron interferometer at the Institut Laue-Langevin in Grenoble, France, the researchers inserted an absorber that soaked up only a few percent of the neutrons—not enough to ruin the interference of the waves. When they put it in path 2, the rate of neutrons leaving the dark port remained the same. When they put it in path 1, the number decreased, proving that the neutrons in the postselected state go through path 1. Then, they applied a small magnetic field to slightly rotate the neutrons’ polarization and perturb the interference pattern. When the field was applied to path 1, it had no effect. But in path two, the number of neutrons exiting the dark port changed, proving the neutrons' magnetism was all in path 2. Thus the cat—the neutron—was separated from its grin—its magnetism.

The experiment will “surely help us understand better the counter-intuitive nature of quantum phenomena,” says Sandu Popescu, a theorist at the University of Bristol in the United Kingdom who was not involved in the experiment. The odd quantum phenomenon might even prove useful for making better precision measurements, he says. Some physicists have been testing whether Newton's law of gravity remains correct at distances shorter than a millimeter or so; the delicate experiments can be muddled by extraneous electromagnetic effects. But if researcher could split the mass of neutrons from their magnetism, then they might be able to study gravitational effects without being disturbed by electromagnetic ones, says Aephraim Steinberg, an experimenter at the University of Toronto in Canada.

Photo caption: Splitsville. The basic setup for the experiment in which a neutron follows one path and its magnetism another.

(Credit: Adapted from Ernecker/Creative Commons)

Water found in stardust suggests life is universal

22 January 2014 by Catherine Brahic
Magazine issue 2953. Subscribe and save

 
A SPRINKLING of stardust is as magical as it sounds. The dust grains that float through our solar system contain the ingredients to make water, which forms when the dust is zapped by a blast of charged wind from the sun.
 
The chemical reaction causing this to happen had previously been mimicked in laboratories, but now water has been found trapped inside real stardust.
Combined with previous findings of organic compounds in interplanetary dust, this suggests that these grains contain the basic ingredients needed for life. As similar dust grains are thought to be found in solar systems all over the universe, this bodes well for the existence of life across the cosmos.
 
"The implications are potentially huge," says Hope Ishii of the University of Hawaii in Honolulu, one of the researchers behind the study. "It is a thrilling possibility that this influx of dust on the surfaces of solar system bodies has acted as a continuous rainfall of little reaction vessels containing both the water and organics needed for the eventual origin of life."
 
Solar systems are full of dust – a result of many processes, including the break-up of comets. John Bradley of the Lawrence Livermore National Laboratory in California and his colleagues used high-resolution imaging and spectroscopy to look beneath the surface of interplanetary particles extracted from Earth's stratosphere. Inside these specks, which measured just 5 to 25 micrometres across, they found trapped pockets of water (PNAS, DOI: 10.1073/pnas.1320115111).
 
Laboratory experiments offer clues to how the water forms. The dust is mostly made of silicates, which contain oxygen. As it travels through space, it encounters the solar wind. This stream of charged particles, including high-energy hydrogen ions, is ejected from the sun's atmosphere. When the two collide, hydrogen and oxygen combine to make water.
 
As interplanetary dust is thought to have rained down on early Earth, it is likely that the stuff brought water to our planet, although it is difficult to conceive how it could account for the millions of cubic kilometres of water that cover Earth today. A more likely origin is wet asteroids that pummelled early Earth. Comets are also a candidate: the European Space Agency's Rosetta spacecraft, due to send a lander to a comet later this year, is tasked with probing their role.
 
However, the results are relevant to the quest for life on other planets. The water-producing reaction is likely to happen in any corner of the universe with a star, says Ishii.
 
What's more, interplanetary dust in our solar system – and in others – contains organic carbon. If stardust contains carbon and water, it means the essentials of life could be present in solar systems anywhere in the universe and raining down on their planets.
 
This article appeared in print under the headline "Fountain of life may be a shower of dust"
Issue 2953 of New Scientist magazine

China Is Dependent On Our Fiscal Health

 
Steve Forbes            
Steve Forbes, Forbes Staff
“With all thy getting, get understanding."
1/22/2014 @ 6:06AM |7,308 views            
English: Beijing CBD 2008-6-9 Jianwai SOHO, Yi...
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Beijing CBD 2008-6-9 Jianwai SOHO, Yitai Center, CCTV (Photo credit: Wikipedia)

China’s holdings in U.S. Treasurys, which reached record levels in 2013, are setting off alarm bells. They shouldn’t. They underscore that Beijing is becoming more dependent on the U.S. and the rest of the world for its strength and prosperity. China’s military leaders may not recognize that truth any more than Germany’s military, its militaristic Prussian aristocracy (which had outsize influence prior to WWI) and some of its intellectuals did in 1914.
Some points to keep in mind.
–If we and Beijing ever engaged in a mortal confrontation, how much would China’s holdings in American government bonds be worth if we said the paper was no longer valid? Beijing is a hostage to our willingness to honor these obligations.

–China has not been a big buyer of our paper for several years because of its concerns about the dollar’s integrity.

–Chinese companies get dollars by selling us products that they either made or assembled from corporate global supply chains. Unless China wants to sit on paper money, it will continue to use those dollars to buy stuff from us, in this case government bonds.

–The fact that the Chinese government is amassing so much in foreign currencies–$3.8 trillion at last count–means that China’s capital markets are still primitive compared with ours and Britain’s. That money is centrally controlled instead of being in the hands of numerous parties–banks, insurance companies, venture capital funds, mutual funds, private companies that wish to invest overseas and so on–that would put it to work creating new products and services. Prior to WWI Britain ran mammoth trade surpluses, which were far greater proportionately than are those of China. But the money didn’t sit in the Bank of England collecting interest. It financed a mind-boggling array of railroads, companies and agricultural enterprises all over the world. Private entrepreneurs, not government officials, directed those investments. British capital, for instance, financed much of the industrialization of the U.S.

–What would happen if China, to damage us, decided to dump its trove of Treasurys? Prices might wobble, but not for long. There are trillions of dollars’ worth of financial securities scattered around the world, and smart asset buyers would gobble up Treasurys if they thought they were underpriced. Moreover, the Fed, which already has a bloated balance sheet of $4 trillion, could easily absorb what China owns in Treasurys–$1.3 trillion.

–If China did sell Treasurys, it would be paid in dollars. Then what? Would it dump the dollars for, say, yen or euros? The European Central Bank and the Bank of Japan, not to mention the Fed, could take countermeasures if they so desired, to make sure currency ratios didn’t get out of line.

The idea that a government gains strength by piling up dollars or other foreign currencies is a mercantilist holdover from the 16th to 18th centuries, when France, Spain and others thought amassing gold and silver was how a country became wealthy. Trade, not hoarding, makes for a powerful economy–an insight Adam Smith understood but one that too many people today don’t.

http://www.forbes.com/sites/steveforbes/2014/01/22/china-is-dependent-on-our-fiscal-health/?utm_campaign=forbestwittersf&utm_source=twitter&utm_medium=social

Commentary: A tale of two pipelines — It’s time for common sense to prevail

Posted on by David Holt in Keystone XL, Pipelines, Politics/Policy   

In March 2012, President Obama visited the Pipe Yard in Cushing, OK where he announced his support for the Gulf Coast Project and directed his administration “to cut through the red tape, break through the bureaucratic hurdles, and make this project a priority, to go ahead and get it done.”
Today – almost two years later – the Keystone Gulf Coast Project has begun shipping about 830,000 barrels of oil a day across the 485 miles from Cushing, OK south to state-of-the-art refineries down on the Gulf Coast in Nederland, TX. The project took 4,000 tradesman and construction workers 16 months to complete.  Additional vendors and local businesses also benefited including the Read Ice Company in Kountze, Texas, 25 miles northwest of Beaumont which contracted with TransCanada to provide ice cold water to construction workers.

America’s energy consumers have reason to celebrate these jobs and the economic benefits resulting from the start of service for the southern leg of the Keystone XL pipeline project. But even as it launches today, delay pervades the remainder of the Keystone XL pipeline. Why more than five years after the initial filing are we still waiting for a final decision from the Obama Administration?

The Keystone XL pipeline project could be so much more. The next phase of the Keystone XL Pipeline project includes building a new pipeline from Hardisty, AB to Steele City, NE, where will it will connect with an existing pipeline that runs to Cushing. This final leg will require 9,000 more tradesman and construction workers. It could provide a $5 billion investment boost into the U.S. economy – not to mention the millions in tax revenue for cities and towns along the route.

Why is building energy pipelines to Cushing, OK so important?  It is the epicenter for storing crude oil in the United States.  From Cushing, crude oil is sent to Gulf Coast refiners where it is made into gasoline, jet fuel, diesel fuel and several other products which the U.S. economy uses to power businesses, manufacturing facilities, automobiles, truck fleets and airplanes.

Building the final leg of Keystone XL will connect landlocked crude oil being produced in the Bakken formation in North Dakota to Gulf Coast refiners.  In turn, there will be downward pressure on prices and a more reliable stream of crude into and out of America’s energy producing network.
 This new found reliability will make the U.S. less dependent on crude oil imports from regimes like Venezuela or Persian Gulf countries (link to other op-ed).

With all of these tremendous benefits available to the United States through the Keystone XL pipeline, why are we still waiting for a decision?

Already subjected to five years of government study and delay, the Keystone XL pipeline has been reviewed by the Nebraska Department of Environmental Quality (NDEQ). The pipeline project has now undergone multiple environmental reviews by the State Department. This new review should be completed sometime this year. After that, it’s all up to President Obama.

However, if it had followed the same regulatory process as the Gulf Coast Project, the Keystone XL pipeline would now be up and running, supplying America’s largest refineries on the Gulf Coast with a secure supply of lower-cost oil from producers in Canada and the U.S. Bakken region. It’s clear that there is a fundamental disconnect between the processes for these two pipelines.

Back in March 2012, President Obama stated to a crowd in Cushing, OK: “Today, we’re making this new pipeline from Cushing to the Gulf a priority…we’re going to go ahead and get that done. The northern portion of it we’re going to have to review properly to make sure that the health and safety of the American people are protected.  That’s common sense.”

We can all agree that a thorough review is appropriate to ensure that the health and safety of the American people are protected. However, after five years of foot dragging by the State Department, now we are past the point of common sense. Instead, political debate on what is now the most thoroughly studied and publicly discussed pipeline in American history has replaced any logical thought common sense. Instead of misinformation continuing to plague the progress of one of the nation’s largest “shovel ready” construction projects, it’s time to make the Keystone XL pipeline a priority.

As the most-studied and safest pipeline in history, the Keystone XL pipeline project is still a good idea and enjoys the support of more than 70 percent of Americans. Mr. President, it’s time for common sense to prevail. It’s time to build the Keystone XL pipeline.

http://fuelfix.com/blog/2014/01/22/a-tale-of-two-pipelines-its-time-for-common-sense-to-prevail/

Issues and Trends: Natural Gas

Production Lookback 2013
Released: January 16, 2014
U.S. natural gas production increases by 1% in 2013
Average dry natural gas production grew modestly in 2013, despite a 35% year-on-year rise in prices. Production grew from 65.7 billion cubic feet per day (Bcf/d) in 2012 to 66.5 Bcf/d in 2013, a 1% increase and the lowest annual growth since 2005. This production growth was essentially flat when compared to the 5% growth in 2012 and the 7% growth in 2011.
Average wholesale (spot) prices for natural gas in 2013 increased significantly throughout the United States compared to 2012. The average wholesale price for natural gas at Henry Hub in Erath, Louisiana, a key benchmark location for pricing throughout the United States, rose to $3.73 per million British thermal units (MMBtu) in 2013. However, 2013 prices were, with the exception of 2012, at their lowest level since 2002.
 
Slower demand growth, low imports limit room for gas production growth
Although prices remained relatively low, total disposition (consumption, gross exports, and net storage injections) of natural gas was flat in 2013 compared with 2012 levels, versus the annual 3% increase in 2012, and the 4% increase in 2011. Domestic consumption in 2013, which makes up 96% of total U.S. natural gas disposition, increased by 2%, despite the decrease in consumption of natural gas for electric generation (power burn) in 2013. Natural gas consumed for power burn was 2.6 Bcf/d below 2012 levels as coal regained some of its market share in response to higher natural gas prices, compared with coal, and as cooler summer temperatures in 2013 reduced total electric generation demand. Increased winter natural gas demand offset the decline in power burn, leading to a net increase in consumption for the year.
Since 2010, domestic production has satisfied 88% of U.S. natural gas disposition, as natural gas imports to the United States have continued to decline. As recently as 2007, the United States depended on imports for 16% of its natural gas needs. Although U.S. production has displaced some natural gas imports to the United States, imports continue, although as a marginal source of supply, largely during cold weather and pipeline maintenance outages.
Storage injections provided another outlet for U.S. natural gas production growth. The net withdrawal in working natural gas storage inventories in 2013 was significantly higher than 2012 because of large withdrawals in January and December. High demand at the end of the year offset the effect of end-of-October working gas inventories that had reached their third-highest level in the past 10 years. By the end of December, inventories had declined to their seventh-highest level in the past 10 years. The net withdrawal in inventories in 2013 was 537 billion cubic feet (Bcf), significantly greater than the net withdrawal of 49 Bcf in 2012. In 2011, there was a net injection into working inventories of 351 Bcf.
 
Growth in Marcellus Shale production offsets decreases in other basins
Greater levels of natural gas output in the Marcellus Shale contributed to the net increase in national production levels despite decreases in other basins. Dry natural gas production from Marcellus rose by 61%, from a 2012 average of 6.5 Bcf/d to a 2013 average of 10.4 Bcf/d (Figure 2), according to U.S. Energy Information Administration (EIA) calculations based on data from Drillinginfo.
Marcellus production alone accounted for 75% of all production growth over the past year in the six basins covered in EIA's recently released Drilling Productivity Report (DPR), which highlights the latest regional trends in drilling, completion, and production from gas- and oil-producing wells.
Despite a 21% decline from 2012 to 2013 in the total rig count in the Marcellus, natural gas output per rig rose by 47%, according to the DPR. Production gains have come largely from northeastern portions of the basin producing drier natural gas, where output has benefitted from gathering line and pipeline capacity expansions. However, infrastructure improvements have also bolstered production in the wetter southwestern portions of the basin, which saw increased drilling in 2013.
Outside of Marcellus, the shift toward liquids-rich production continued in 2013
Wide differences in natural gas and oil prices affect the decisions that upstream operators make about where and how to deploy capital. Although natural gas prices remained at relatively low levels through the end of 2013, crude oil prices remained mostly above $100/barrel (bbl), encouraging operators to target regions with wetter gas and higher returns on investment.
The Haynesville Shale in Texas and Louisiana and the Barnett Shale in Texas generally are considered dry natural gas plays because of the low level of liquids in their production streams. Production from the Haynesville and Barnett declined by 27% and 9%, respectively, between 2013 and 2012. The Barnett and Haynesville reductions exceeded the 3% combined increase in gas production at the Fayetteville Shale in Arkansas and the nearby Woodford Shale in Oklahoma. The Baker Hughes active rig count decreased significantly in all four of these basins between 2011 and 2013. Some of the production declines in these fields are also partially attributable to the normal decline or maturity of their existing wells.
At the same time, increased new production activity in wetter shale basins enabled these basins to pick up some of the drop-off in production from their drier counterparts. At the Eagle Ford in south Texas, where operators target a combination of crude oil, condensate, and natural gas liquids, average daily gas production reached 3.3 Bcf/d in 2013, 54% higher than in 2012. In 2012, the average active rig count in Eagle Ford rose by 29% before declining slightly in 2013. Production also grew by 33% in the Bakken Shale in North Dakota and Montana, where operators predominantly target crude oil, following a rig count increase in 2012.
The shift in new production activity from drier to wetter production fields is demonstrated by data on Lower 48 gross withdrawals from wells producing only natural gas, versus those producing a combination of gas and oil. While gross withdrawals from wells containing only natural gas rose by 4% from 2011 to 2013, from 40.4 Bcf/d to 42.1 Bcf/d, gross withdrawals from wells producing a combination of both gas and oil increased by 7%, from 25.0 Bcf/d to 26.8 Bcf/d (Figure 3), according to EIA calculations with data from Drillinginfo.
The increased gross withdrawals from wells producing both gas and oil coincided with changes in the oil-to-natural gas price ratio. When the oil-to-natural gas price ratio increased by 49% in 2012, from $28.33/bbl of Brent crude oil in 2011 to $42.13/bbl of Brent crude oil for every $1.00/MMBtu of natural gas, gross withdrawals from wells producing both gas and oil rose by 8%. When gas prices rose and the oil-to-gas price ratio decreased by 30% to $29.61/bbl of Brent crude oil for every $1.00/MMBtu of natural gas in 2013, gross withdrawals from wells producing both gas and oil decreased by 1%. The shift in the focus of new natural gas production activity was also evident in terms of the increase since 2010 in the percentage of new wells that produced both natural gas and oil (Figure 4). In 2010, 57% of all new natural gas-producing wells produced both gas and oil. By 2012, 73% of all new natural gas producing wells produced both gas and oil. This share fell to 68% in 2013.
Other production
The shift in natural gas production also involved movement away from geologically more permeable zones that have traditionally accounted for a greater share of North American gas supply. Marketed natural gas production was generally flat or down for inland production areas outside of shale and tight formations in 2012 and 2013, except for New Mexico, and also remained relatively flat in onshore Canada. Production from offshore areas in both Canada and the United States declined between 2012 and 2013
 

Northern Ireland Christians force cancellation of comedy based on Bible

Play is pulled from schedule of Newtownabbey theatre after calls for ban from DUP politicians   
DUP rosette
The Theatre at the Mill is run by the DUP-dominated Newtownabbey borough council. Photograph: Paul Mcerlane
 
Christians have forced the cancellation of play at a Northern Ireland theatre because it supposedly mocks the Bible, it has emerged.

The irreverent comedy The Bible: The Complete Word of God (Abridged) has been pulled from the schedule of the Theatre at the Mill in Newtownabbey on the northern outskirts of Belfast.
Evangelical Christian politicians from the Democratic Unionist party (DUP) called for the play to be banned from the theatre, which is run by unionist-dominated Newtownabbey borough council.
The Reduced Shakespeare Company was due to start its latest UK tour by presenting the show at the venue in Co Antrim on 29 and 30 January.

But the Theatre at the Mill confirmed on Thursday that the two planned performances had been cancelled and said refunds would be available from its box office.

The Democratic Unionist councillor Billy Ball had called for the play to be banned because it would cause offence to Christians.

"For Christians, the Bible is the infallible word of God and it's not something to be made fun of. These people are treating something sacred with irreverence and disrespect," he said.

But the theatre group behind the production pointed out that they had taken the show to Jerusalem recently and had had no problems staging it, nor were there any protests from the Israeli authorities.

Before the cancellation on Thursday, Dave Naylor, the play's producer, had said: "Maybe Councillor Ball should come and see our show before denouncing it as unholy. But he'd better be quick as all his comments have done is increase ticket sales."

The drama company's production poses questions in the play such as: "Did Adam and Eve have navels? Did Moses really look like Charlton Heston?"

In its promotion for the play, the company adds: "Whether you are Catholic or Protestant, Muslim or Jew, atheist or Jedi, you will be tickled by the RSC's romp through old-time religion."
The evangelical Christian wing of the DUP has a long history of trying to ban works of art, films, exhibitions and dramas that it regards as blasphemous or offensive. DUP-controlled councils have banned Monty Python's Life of Brian and even barred the Electric Light Orchestra from playing a concert in a Ballymena-council-controlled leisure centre because the band were staging the gig on a Sunday.

The DUP also pioneered protests against the first sex shops to open in Northern Ireland during the 1980s. Outside one sex shop that had opened in the future first minister Peter Robinson's East Belfast constituency, DUP activists held up placards calling on passing motorists to "bump your horn for decency".

New Global Program Bolsters Skills of Experts in Sustainable Energy

Installing solar panels in West Africa



















Energy issues facing society are one of the biggest technological and policy challenges of the twenty-first century. A new global program at Columbia Engineering is aiming to make headway in addressing this problem.

“It is absolutely critical to develop a global curriculum to prepare engineers to ensure universal access to modern energy services,” says Mechanical Engineering Professor Vijay Modi, who has been working on these issues around the world for 10 years. “For example, there are 1.4 billion people without electricity access today—We want to bring electricity access to them. We also need to increase the share of renewable energy in the global energy mix as it is one of the drivers of decarbonization, and accelerate the rate of improvement in energy efficiency.”

To that end, Modi has been working with the Economic Community of West African States (ECOWAS) Centre for Renewable Energy and Energy Efficiency (ECREEE), the United Nations Industrial Development Organization (UNIDO), and the Engineering Department of the University of Cape Verde in Mindelo, Sao Vicente, to design an innovative distance-learning program that leads to a certification in Sustainable Energy Solutions. The program is designed to build skills of experts in the field of sustainable energy systems and solutions. In January 2014, the certification program will be offered to a pilot group of 10 students from West African countries that are members of ECOWAS. This cohort is expected to comprise current employees of utilities, regulators, or independent power producers.

The idea for the program came about during a post-event discussion hosted by Columbia University President Lee C. Bollinger as part of the World Leaders Forum a few years ago. Enhanced engineering skill development was identified as an essential need. Subsequently, ECREEE and UNIDO identified a need for assistance in the areas of design and assessment capability, as well as techno-economic feasibility of renewable energy and energy efficiency technologies.

“Our overall objective,” says Modi, “is to strengthen the long-term capabilities of these institutions, service providers, and companies to design and appraise projects, integrate renewable energy and energy efficiency into their planning, operational, and monitoring cycles, and contribute to strengthening of policy framework at the national level.”

The School’s Certification of Professional Achievement in Sustainable Energy Solutions comprises four 3-credit courses, two of which are taught by Modi. He is joined by Mechanical Engineering Assistant Professor Arvind Narayanaswamy and Pezhman Akbari, lecturer in the discipline of mechanical engineering. The yearlong program includes distance-learning lessons through Columbia Video Network as well as face-to-face workshops to be held at the University of Cape Verde.
ECOWAS is a regional group of 15 countries—Benin, Burkina Faso, Cape Verde, Côte d’Ivoire, The Gambia, Ghana, Guinea, Guinea Bissau, Liberia, Mali, Niger, Nigeria, Senegal, Sierra Leone, and Togo—founded in 1975. “Our Columbia Engineering program dovetails nicely with ECOWAS’s mission,” Columbia Engineering Vice Dean Soulaymane Kachani adds, “which is to create a favorable business environment for development within the region and to ensure that private enterprise is effectively supported and sustained.” Modi’s laboratory is already working in the region with a range of projects that include innovations, information systems, and/or national planning support in Mali, Senegal, Nigeria, and Liberia.

The program offers a broad overview of possible energy generation technologies, integration of renewable technologies in the larger energy system, both bottom-up and top-down approaches to achieving energy access and reliable supply, smart payment systems and business models for entrepreneurs, and devising national scale programs to achieve the above objectives along with energy efficiency technologies.
 
—by Holly Evarts

Archetype

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Archetype The concept of an archetyp...