To be or not to be the memristor?

January 27th, 2012

The memristor (aka, memresistor), for anyone not familiar with it, is a contested ‘new’ circuit element. In my April 5, 2010 posting I gave a brief overview of the history as I understood it (the memristor was a new addition to the traditional circuit elements [the capacitor, the resistor, and the inductor]) and in my April 7, 2010 posting I conducted an interview with Forrest H Bennett III who presented an alternative view to the memristor as ‘new’ circuit element discussion.

Discussion has continued on and off since then but in the last few weeks it has become more topical with the publication of a paper (Memresistors and non-memristive zero-crossing hysteresis curves) by Blaise Mouttet at arXiv.org on Jan. 12, 2012.

I don’t feel competent to summarize the gist of Blaise’s paper so I’m excerpting a passage  Peter Clarke’s Jan. 18, 2012 article for EE (Electronic Engineering) Times,

Blaise Mouttet argues that the interpretation of the memristor as a fourth fundamental circuit element – after the resistor, capacitor and inductor – was incorrect and that the memory device under development at HP Labs is not actually a memristor but part of a broader class of variable resistance systems.

Since publishing his arXiv paper Mouttet has also been in discussion with an e-mailing list of researchers into non-volatile memory device physics.

Some e-mail correspondents have come out in favor of Mouttet’s position stating that trying to define any two-terminal device in which the resistance can be altered by the current passed through the device as a memristor, adds nothing to the understanding of a complex field in which there are many types of device.

The article and the comments that follow (quite interesting and technical) are worth reviewing if this area of nanoelectronics interests you.

HP Labs has responded to Blaise’s paper and subsequent debate, and before included an excerpt from the response, I want to include a few passages from Blaise’s paper,

The “memristor” was originally proposed in 1971by Leon Chua as a missing fourth fundamental circuit element linking magnetic flux and electric charge. In 2008 a group of scientists from HP led by Stan Williams claimed to have discovered this missing memristor . It is my position that HP’s “memristor” claim lacks any scientific merit. My position is not that the HP researchers have presented an incorrect model of a memristor or even an incorrect model of resistance memory. If this were the case it would not be so bad because an incorrect model could at least be proven incorrect and possibly corrected to produce a better model. My position is that the HP researchers have avoided presenting any scientifically testable model at all by hiding behind the reputation of Leon Chua and the mythology of the memristor. They have thus attempted to bypass the principle of the scientific method.

If the HP researchers had developed a realistic model for resistive memory (whether it is called “memristor” or by some other name) it could be vetted by other researchers, compared to experimental data, and determined to be true or false. If necessary the model could be modified or corrected and an improved version of the model could be produced.

This is not what has happened. (p. 1 PDF)

Here’s my excerpt of HP’s response (from Peter Clarke’s Jan. 20, 2012 article for EE Times),

The spokesperson said in email: “HP is proud of the research it has undertaken into memristor technology and the recognition this has received in the scientific community. In a little over three years, our papers, which were subject to rigorous peer review before being published in leading scientific journals, have been cited more than 1,000 times by other researchers in the field. We continue this research and collaboration with the electronics industry to bring this important technology to market.”

Deciding what something is and how fits into our understanding of how the world operates, in this case, a new circuit element, or not, has consequences beyond the actual discussion. If science is the process of posing questions, we need to test the assumptions we make (in this case, whether or not the memristor is a fourth circuit element or part of a larger system of variable resistance systems) as they can define the questions we’ll ask in the future.

As I noted earlier, I’m not competent to draw any conclusions as to which party may have the right approach but I am glad to see the discussion taking place.

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ArboraNano in Washington, DC for a two-day shindig on nanotechnology and economic impacts

January 27th, 2012

The Organization for Economic Cooperation and Development (OECD), the American Association for the Advancement of Science (AAAS), and the US National Nanotechnology Initiative (NNI) are hosting an  International Symposium on Assessing the Economic Impact of Nanotechnology, March 27 – 28, 2012 in Washington, D.C. Registration for the event opens Feb. 10, 2012 (first come, first served) and it appears to be a free event.

From the NNI’s event page, here’s some information about their objectives and who they’re inviting to attend,

The objective of the symposium is to systematically explore the need for and development of a methodology to assess the economic impact of nanotechnology across whole economies, factoring in many sectors and types of impact, including new and replacement products and materials, markets for raw materials, intermediate and final goods, and employment and other economic impacts.

Attendees are being invited from a broad spectrum of backgrounds and expertise, including technology leaders, key decision makers, economists, investors, policy analysts, scientists and engineers from industry, business, government, academia, and the general public.

They have close to 40 confirmed speakers for this event and, interestingly (for a Canadian and/or someone interested in nanocrystalline cellulose), one of them is Reinhold (Ron) Crotogino of ArboraNano.

Crotogino, network director, president and chief executive officer (CEO) of ArboraNano, the Canadian Forest NanoProducts Network, has extensive experience and education in the forest products industry. From a Feb. 10, 2011 news item in Pulp & Paper Canada,

Crotogino is a graduate of the University of British Columbia (B.A.Sc. 1966) and McGill University (Ph.D. 1971), both in chemical engineering. He worked with Voith for a few years after graduating, but spent much of his career as a researcher and research manager with Paprican (now FPInnovations). [emphasis mine]

For anyone not familiar with the nanocrystalline cellulose (NCC) story in Canada, FPInnovations initiated and has been heavily involved in the development of NCC. (My Dec. 15, 2011 posting features one of my more recent stories about NCC in Canada.)

It’s a lot to infer from a list of speakers but I’m going to do it anyway. Given that the only Canadian listed as an invited speaker for a prestigious (OECD/AAAS/NNI as hosts) symposium about nanotechnology’s economic impacts, is someone strongly associated with NCC, it would seem to confirm that Canadians do have an important R&D (research and development) lead in an area of international interest.

One thing about this symposium does surprise and that’s the absence of Vanessa Clive from Industry Canada. She co-authored the OECD’s 2010 report, The Impacts of Nanotechnology on Companies: Policy Insights from Case Studies and would seem a natural choice as one of the speakers on the economic impacts that nanotechnology might have in the future.

For anyone who wants to see the agenda before committing, here’s the link. I did take a look,

Session One: Setting the Scene

This plenary session will introduce the conference themes, objectives and expected outputs. The session will provide an overview of the technologies and challenges that impact the assessment of the economic impact of nanotechnology and some indications of metrics being used

[break]

Session One con’t: Government Panel Discussion

This panel session will consider the issues raised in Session One, with a focus on the particularities of each country in addressing the challenges in assessing the economic impact of nanotechnology [emphasis mine]

I would have appreciated a little more detail such as which speakers will be leading which session and when they say “each country” exactly which countries do they mean? Oddly, no one involved with this event thought about phoning me to ask my opinion.

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Fukushima and tsunami, anyone? nano tech Japan 2012 opens next month despite a very difficult 2011

January 27th, 2012

nano tech Japan 2012 is set to welcome over 50,000 visitors when it opens Feb. 15, 2012. From the Jan. 26, 2012 news item on Nanowerk,

The earthquake/tsunami disaster last March was threatening the success of this year’s event. But the number of applicants in the aftermath of the disaster was extremely high. Finally, the organizer expects again more than 500 exhibitors and up to 50,000 visitors, which makes nano tech the largest nanotechnology fair worldwide. More than a quarter of the exhibitors are foreign participants from 22 different countries.

I wonder if last year’s events will be reflected in this year’s exhibitors’ booths and in the seminars with more information about disaster relief, water purification, etc.  You can register for the event being held in Tokyo here.

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A tale of two cities and their science meetings: vibrant Dublin and sadsack Vancouver

January 26th, 2012

I gnashed my teeth as I read Humphrey Jones’ description of the preview for the Euroscience Open Forum in Dublin, Ireland. Envy is a terrible sin but there is no other word to describe my feelings on seeing this (and more in his Jan. 26, 2012 posting on The Frog Blog,

The varied members of Ireland’s science community crammed in to the Convention Centre Dublin this morning to officially launch Dublin as the European City of Science 2012. Politicians, scientists, educators, science journalists, bloggers, policy makers and others were treated to a slick and inspiring launch, which genuinely created an air of excitement for the year ahead. [emphasis mine] The launch was MC’d by Irish comedian, TV presenter and science enthusiast Dara O’Briain (with whom I had a great chat to about science blogging and the nature of effective science programming), who spoke of his love of science and what it means for him to act as a science ambassador for Dublin City of Science 2012. He was joined on stage by Patrick Cunningham (Chief Science Advisor to the Government), Richard Bruton (Minister for Jobs, Enterprise & Innovation), Seán Sherlock (Junior Minister in the Department of Jobs, Enterprise & Innovation), Aoibhinn Ni Shúilleabháin (Dublin City of Science 2012 Ambassador) and Andrew Montague (Lord Mayor of Dublin & former Veterinary scientist). Each spoke with passion on what the City of Science title meant to them and of the 160 events planned during the “celebration of science” to come over the next 11 months.

So what of these 160 events? …

By contrast, I offer my own experience at the recent ‘preview’ for the American Association for the Advancement of Science (AAAS) 2012 annual meeting in Vancouver (Canada) next month.

To give you a sense of the magnitude of this event from a Canadian perspective (if you don’t already know), it’s helpful to know that there are no major Canadawide meetings for scientists outside their respective specialties. The last time we had this kind of general meeting was 30 years ago (and that too was a AAAS annual meeting) in Toronto.  Here’s my description of the launch for the 2012 meeting exactly one week ago today (Jan. 19, 2012 posting),

The preview was well organized and proceeded quite smoothly although I’m not sure about its actual purpose. Generally, a press conference of this type is called to generate excitement and interest. …

There were a few moments in the preview where excitement and interest threatened to make an appearance. Julio Montaner, Director of the BC Centre for Excellence in HIV/AIDS, and Karen Bakker, a Canada Research Chair in Political Ecology at the University of  British Columbia, spoke with passion and fervour about their areas of expertise and for a few moments the room buzzed quietly. …

Otherwise, the preview was a bit lacklustre.

The organizers didn’t give me much to work with. I can’t fathom why the organizers, particularly the Vancouver committee,  gave up an opportunity to reach beyond the scientists, science journalists, and science enthusiasts to create some excitement about science in Canada and about science in Vancouver.

I cannot imagine a greater contrast between two press conferences launching science events. Bravo to the Irish!

I have mentioned The Frog Blog before but here’s a quick refresher anyway (from The Frog Blog About page)

The Frog Blog is a website created by Humphrey Jones and Jeremy Stone, science teachers of St. Columba’s College, Dublin, Ireland. It aims to provide an online tool for the promotion of science within our school, and across the country. While it is designed for the pupils of St. Columba’s, we hope it has wide appeal

 

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Design, architechture, biomimicry, and a transdisciplinary project in the tropics

January 26th, 2012

Getting a design project on the scale of developing a research station for the US Smithsonian Institute’s only research facility outside the US has got to be a thrill—especially if you’re a student looking for experience and résumé-building credits. Students from Arizona State University (ASU) got exactly that opportunity. From the Jan. 13, 2012 news release at ASU,

The graduate students [six teams of students from ASU’s Herberger Institute for Design and the Arts and the School of Life Sciences] are partners in the traveling studio program developed by The Design School at ASU, which journeyed to Gamboa, Panama, to collaborate with the program’s partner, the Smithsonian Tropical Research Institute.

The students’ assignment was to create biomimetic architectural and product-design concepts for a scientific field station on the Gigante Peninsula, a remote spit of land located in the Panama Canal Zone.

Here’s an ASU video of the instructors and students discussing the trip and showing off some of the design concepts,

ASU biologists and designers showcase biomimetic solutions for Smithsonian from ASU News on Vimeo.

ASU is hosting an exhibition of the students’ design concepts (posters) from Jan. 24 – Feb. 9, 2012. You can get more information about that here.

For anyone who’s not able to visit the exhibition and get more details, here’s information about some of the limitations the students were dealing with (from the news release),

The challenge of designing permanent structures on the Gigante Peninsula in Panama tests architects on multiple fronts, says White [Philip White, associate professor and ecological design strategist whose focus, besides teaching, is the development of ecologically intelligent products and systems]. Buildings are subject to insect infestations and periodic flooding. Obtaining sunlight for solar power and room lighting, as well as capturing cross breezes for natural cooling, requires destructive cutting of openings in the forest canopy. Such design challenges are what engaged architectural student Adam Tate’s interest. Tate developed plans [featured in the video] for a mobile research laboratory built on a floating pontoon structure, with joints and springs modeled after elements of the trap-jaw ant.

The exhibit will showcase Tate’s design, along with a backpack inspired by the musculoskeletal structure of the three-toed sloth, an umbrella derived from bats, which will resist wind torsion, and a design for a photovoltaic canopy based on lobster eyes – perfect for the challenges of the low light environment of the jungle.

This is not the only biomimicry project at ASU (from the news release),

Scientists at ASU have been using concepts of biomimicry in various studies across the campuses. For example, Ana Moore and Thomas Moore, both Regents’ Professors at ASU in the Department of Chemistry and Biochemistry, have work that is funded by the National Science Foundation to use bio-inspired approaches to improve solar energy conversion. One of their projects is a photovoltaic cell that utilizes design concepts drawn from photosynthesis in leaves. Scientists Jeff Yarger and Gregory Holland also are deconstructing the molecular makeup of spider silk hoping to create stronger, light-weight materials, such as bulletproof vests and artificial tendons.

I hope one day to see some these designs taken from concept to product.

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New research on nanoscale titanium dioxide shows toxic effects on marine life

January 26th, 2012

Up till now, nanoscale titanium dioxide in water has not been viewed as toxic to marine life. A newly released study by researchers from  the University of California (UC) Center for Environmental Implications of Nanotechnology (UC CEIN) in the Jan. 20 in the journal PLoS ONE suggests otherwise. From the Jan. 24, 2012 news release on EurekAlert,

“Previous experiments have suggested that TiO2 does not affect aquatic organisms, but these experiments used artificial lighting that generated much lower levels of UVR than sunlight,” Miller [lead author and assistant research biologist Robert Miller] explains. “In these new experiments, we used lights simulating natural sunlight.”

But now, the authors say, “We show that relatively low levels of ultraviolet light, consistent with those found in nature, can induce toxicity of TiO2 nanoparticles to marine phytoplankton, the most important primary producers on Earth.

So, the relatively low levels of ultraviolet light in natural sunlight can induce toxicity in titanium dioxide nanoparticles. Here’s the reason for the concern,

“Application of nanomaterials in consumer products and manufacturing is quickly increasing, but there is concern that these materials, including nanoparticles, may harm the environment,” says Miller. “The oceans could be most at risk, since wastewater and factory discharges ultimately end up there.”

In all of the kerfuffle that the Friends of the Earth (FoE) and The ETC Group (and I assume others as well) have made over nanoscale ingredients in sunscreens they seem to have ignored the impact that these ingredients, when washed off our skin and into our water supply, may have on aquatic life.  I wonder if that will matter in the end. I mean if it turns out that nanoscale titanium dioxide is going to kill/damage “… the most important primary producers on Earth”, does it matter if FoE and the others succeed in mobilizing opposition to its use for what most experts might consider the wrong reasons.

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Two (Denmark & US) contrasting documents about nanomaterials and risk

January 25th, 2012

The Danes released their NanoRiskCat (NRC) document in early December 2011 while the US National Research Council released its report on the US research strategy on environmental and health impact of engineered nanomaterials today, Jan. 25, 2012.

(BTW, There”s going to be an alphabet soup situation in this posting with two different NRCs [the catalogue] and the US National Research Council for starters. I’ll do my best to keep these entities distinct from each other.)

The documents represent an interesting contrast regarding approaches to nanomaterials and their risks. From the Jan. 25, 2012 Nanowerk Spotlight article about Denmark’s NanoRiskCat,

The project’s aim was to identify, categorize and rank the possible exposure and hazards associated with a nanomaterial in a product. NanoRiskCat is using a stepwise approach based on existing data on the conventional form of the chemical as well as the data that may exist on the nanoform. However, the tool still needs to be further validated and tested on a series of various nano products in order to adjust and optimize the concept and thereby to achieve a screening tool as informative and practical as possible.

Meanwhile, here’s the description of the US NRC’s latest report, from the Jan. 25, 2012 news item on Nanowerk,

Despite extensive investment in nanotechnology and increasing commercialization over the last decade, insufficient understanding remains about the environmental, health, and safety aspects of nanomaterials. Without a coordinated research plan to help guide efforts to manage and avoid potential risks, the future of safe and sustainable nanotechnology is uncertain, says a new report (“A Research Strategy for Environmental, Health, and Safety Aspects of Engineered Nanomaterials“)from the National Research Council. The report presents a strategic approach for developing research and a scientific infrastructure needed to address potential health and environmental risks of nanomaterials. Its effective implementation would require sufficient management and budgetary authority to direct research across federal agencies.

I find it interesting that the US government which has poured billions into its National Nanotechnology Initiative (NNI) is still trying to develop a research strategy for environmental and health impacts while the Danish (who have likely spent far less and, to be fair, likely have less bureaucracy) have created an assessment tool designed to evaluate the exposure to and hazards posed by nanomaterials found in consumer and industrial use.

One other interesting tidbit, both the Danish and the US Environmental Protection Agencies (EPAs) were instigators of their country’s respective documents. The Danish EPA was one of the three funders (the other two were the Danish Technical University and the National Research Centre for the Working Environment) for their NanoRiskCat. The US EPA was one of the sponsors  for the strategy report. The other sponsors include the The National Academy of Sciences, National Academy of Engineering, Institute of Medicine, and National Research Council.

I have to admit I’m getting a little tired of strategy documents and I’m please to see an attempt to evaluate the situation. I’m not sure which version (alpha or beta) of the tool they’ve released but there’s definitely some tweaking to be done as the Danes themselves admit,

It is the view of the Danish EPA that the traffic light ranking [I'm assuming they assign a colour [red, amber, yellow] as a means of quickly identifying a risk level in their documentation of specific nanomaterials) of the health effects may be further modified to obtain a better ranking in the various categories. Thus titanium dioxide in sunscreen is ranked as red due to lung effects of titanium dioxide, because the tool in its present form does not sufficiently take account of which type of health effects that are most relevant for the most relevant exposure route of the product. In this case the inhalational exposure of titanium dioxide from a sun screen seems less relevant.

Yes, I agree that exposure to nanoscale titanium dioxide via inhalation is an unlikely when you’re using a nanosunscreen. Although given some folks I’ve known, it’s not entirely out of the question. (It’s been my experience that people will inhale anything if they think they can get high from it.)

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Davos, World Economic Forum, and risk

January 25th, 2012

The World Econ0mic Forum’s (WEF) annual meeting in Davos, Switzerland started today, Jan. 25. 2012 and runs until Jan. 29. From the WEF’s home page, here’s what they have to say about the theme for this year’s meeting,

The contextual change at the top of minds remains the rebalancing and deleveraging that is reshaping the global economy. In the near term, this transformation is seen in the context of how developed countries will deleverage without falling back into recession and how emerging countries will curb inflation and avoid future economic bubbles. In the long term, both will play out as the population of our interdependent world not only passes 7 billion but is also interconnected through information technology on a historic scale. The net result will be transformational changes in social values, resource needs and technological advances as never before. In either context, the necessary conceptual models do not exist from which to develop a systemic understanding of the great transformations taking place now and in the future.

It is hubris to frame this transition as a global “management” problem of integrating people, systems and technologies. It is an indisputable leadership challenge that ultimately requires new models, bold ideas and personal courage to ensure that this century improves the human condition rather than capping its potential. Thus, the Annual Meeting 2012 will convene under the theme, The Great Transformation: Shaping New Models, whereby leaders return to their core purpose of defining what the future should look like, aligning stakeholders around that vision and inspiring their institutions to realize that vision.

The meeting is a big deal with lots of important and/or prominent people expected to attend. I usually get my dose of WEF’s annual meeting (sometimes there’s some talk about nanotechnology) from Dr. Andrew Maynard, Director of the University of Michigan Risk Science Center and owner of the 2020 Science blog. I’m not sure if he’s attending this year but he has already profiled the WEF Global Risks 2012 Report in a Jan. 11, 2012 posting on his blog.

The World Economic Forum Global Risks Report is one of the most authoritative annual assessments of emerging issues surrounding risk currently produced. Now in its seventh edition, the 2012 report launched today draws on over 460 experts* from industry, government, academia and civil society to provide insight into 50 global risks across five categories, within a ten-year forward looking window.

As you would expect from such a major undertaking, the report has its limitations. There are some risk trends that maybe aren’t captured as well as they could be – chronic disease and pandemics are further down the list this year than I would have expected. And there are others that capture the headlining concerns of the moment – severe income disparity is the top-listed global risk in terms of likelihood.

Risks are addressed in five broad categories, covering economic, environmental, geopolitical, societal and technological risks. And cutting across these, the report considers three top-level issues under the headings Seeds of Dystopia (action or inaction that leads to fragility in states); How Safe are our Safeguards? (unintended consequences of over, under and unresponsive regulation); and The Dark Side of Connectivity(connectivity-induced vulnerability). These provide a strong framework for approaching the identified risks systemically, and teasing apart complex interactions that could lead to adverse consequences.

I’m always interested in ‘unintended consequences’. (When I worked as a frontline staff member for various bureaucracies, I was able to observe the ‘unintended consequences’ of policies devised by people who had no direct experience or had forgotten their experience.) So, I was quite interested to note these items in Andrew’s excerpts from the report,

Unintended consequences of nanotechnology. Following a trend seen in previous Global Risks reports, the unintended consequences of nanotechnology – while still flagged up – are toward the bottom of the risk spectrum. The potential toxicity of engineered nanomaterials is still mentioned as a concern. But most of the 50 risks addressed are rated as having a higher likelihood and/or impact.

Unintended consequences of new life science technologies. These are also relatively low on the list, but higher up the scale of concern that nanotechnologies. Specifically called out are the possibilities of genetic manipulation through synthetic biology leading to unintended consequences or biological weapons.

Unforeseen consequences of regulation. These are ranked relatively low in terms of likelihood and impact. But the broad significance of unintended consequences is highlighted in the report. These are also linked in with the potential impact and likelihood of global governance failure. Specifically, the report calls for

“A shift in mentality … so that policies, regulations or institutions can offer vital protection in a more agile and cohesive way.”

The report’s authors also ask how leaders can develop anticipatory and holistic approaches to system safeguards; how businesses and governments can prevent a breakdown of trust following the emergence of new risks; and how governments, business and civil society can work together to improve resilience against unforeseen risks.

Andrew has a lot more detail about the risks noted in the report, so I encourage you to read the post in its entirety. I was intrigued by this final passage with its emphasis on communication and trust,

The bottom line? The report concludes that

Decision-makers need to improve understanding of incentives that will improve collaboration in response to global risks;

Trust, or lack of trust, is perceived to be a crucial factor in how risks may manifest themselves. In particular, this refers to confidence, or lack thereof, in leaders, in systems which ensure public safety and in the tools of communication that are revolutionizing how we share and digest information; and

Communication and information sharing on risks must be improved by introducing greater transparency about uncertainty and conveying it to the public in a meaningful way.

One other comment, Andrew notes that he was ‘marginally involved’ (single quotes mine) in the report as a member of the World Economic Forum Agenda Council on Emerging Technologies.

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Rail system and choreography metaphors in a couple of science articles

January 25th, 2012

If you are going to use a metaphor/analogy when you’re writing about a science topic  because you want to reach beyond an audience that’s expert on the topic you’re covering or you want to grab attention from an audience that’s inundated with material, or you want to play (for writers, this can be a form of play [for this writer, anyway]), I think you need to remain true to your metaphor. I realize that’s a lot tougher than it sounds.

I’ve got examples of the use of metaphors/analogies in two recent pieces of science writing.

First, here’s the title for a Jan. 23, 2012 article by Samantha Chan for The Asian Scientist,

Scientists Build DNA Rail System For Nanomotors, Complete With Tracks & Switches

Then, there’s the text where the analogy/metaphor of a railway system with tracks and switchers is developed further and abandoned for origami tiles,

Expanding on previous work with engines traveling on straight tracks, a team of researchers at Kyoto University and the University of Oxford have used DNA building blocks to construct a motor capable of navigating a programmable network of tracks with multiple switches.

In this latest effort, the scientists built a network of tracks and switches atop DNA origami tiles, which made it possible for motor molecules to travel along these rail systems.

Sometimes, the material at hand is the issue. ‘DNA origami tiles’ is a term in this field so Chan can’t change it to ‘DNA origami ties’ which would fit with the railway analogy. By the way, the analogy itself comes from (or was influenced by) the title the scientists chose for their published paper in Nature Nanotechnology (it’s behind a paywall),

A DNA-based molecular motor that can navigate a network of tracks

All in all, this was a skillful attempt to get the most out of a metaphor/analogy.

For my second example, I’m using a Jan. 12, 2012 news release by John Sullivan for Princeton University which was published in Jan. 12, 2012 news item on Nanowerk. Here’s the headline from Princeton,

Ten-second dance of electrons is step toward exotic new computers

This sets up the text for the first few paragraphs (found in both the Princeton news release and the Nanowerk news item),

In the basement of Hoyt Laboratory at Princeton University, Alexei Tyryshkin clicked a computer mouse and sent a burst of microwaves washing across a silicon crystal suspended in a frozen cylinder of stainless steel.

The waves pulsed like distant music across the crystal and deep within its heart, billions of electrons started spinning to their beat.

Reaching into the silicon crystal and choreographing the dance of 100 billion infinitesimal particles is an impressive achievement on its own, but it is also a stride toward developing the technology for powerful machines known as quantum computers.

Sullivan has written some very appealing text for an audience who may or may not know about quantum computers.

Somebody on Nanowerk changed the headline to this,

Choreographing dance of electrons offers promise in pursuit of quantum computers

Here, the title has been skilfully reworded for an audience that knows more quantum computers while retaining the metaphor. Nicely done.

Sullivan’s text goes on to provide a fine explanation of an issue in quantum computing, maintaining coherence, for an audience not expert in quantum computing. The one niggle I do have is a shift in the metaphor,

To understand why it is so hard, imagine circus performers spinning plates on the top of sticks. Now imagine a strong wind blasting across the performance space, upending the plates and sending them crashing to the ground. In the subatomic realm, that wind is magnetism, and much of the effort in the experiment goes to minimizing its effect. By using a magnetically calm material like silicon-28, the researchers are able to keep the electrons spinning together for much longer.

Wasn’t there a way to stay with dance? You could have had dancers spinning props or perhaps the dancers themselves being blown off course and avoided the circus performers. Yes, the circus is more colourful and appealing but, in this instance, I would have worked to maintain the metaphor first introduced, assuming I’d noticed that I’d switched metaphors.

So, I think I can safely say that using metaphors is tougher than it looks.

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Babies—natural physicists?

January 24th, 2012

I don’t often get a chance to do cute but here we go,

Are these babies capable of physics?

I came across a Jan. 24, 2012 news item on Medical Xpress about research showing that babies intuitively understand physics (it makes sense when you see the reasoning),

In a review of related scientific literature from the past 30 years, vanMarle [Kristi vanMarle, an assistant professor in the Department of Psychological Sciences at the University of Missouri] and Susan Hespos of Northwestern University found that the evidence for intuitive physics occurs in infants as young as two months – the earliest age at which testing can occur. At that age, infants show an understanding that unsupported objects will fall and that hidden objects do not cease to exist. Scientific testing also has shown that by five months, infants have an expectation that non-cohesive substances like sand or water are not solid. In a previous publication, vanMarle found that children as young as 10 months consistently choose larger amounts when presented with two different amounts of food substance.

For any parents planning to discuss physics with their babies or start them on a physics enhancement programme, vanMarle has a few words of advice,

“Despite the intuitive physics knowledge, a parent probably cannot do much to ‘get their child ahead’ at the infant stage, including exposing him or her to videos marketed to improve math or language skills,” vanMarle said. “Natural interaction with the child, such as talking to him/her, playing peek-a-boo, and allowing him/her to handle safe objects, is the best method for child development. Natural interaction with the parent and objects in the world gives the child all the input that evolution has prepared the child to seek, accept and use to develop intuitive physics.”

For those who want examine the research first hand,

“Physics for infants: characterizing the origins of knowledge about objects, substances and number,” is published in the January issue of WIREs Cognitive Science.

I suppose you could say we are natural physicists.

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