Category Archives: LT25 low-temperature conference 2008

By Hamish Johnston

Our good friends in the journals department have just published two special issues containing 850 papers on low temperature physics — all of which are free to read online.

The papers were presented at the 25th International Conference on Low Temperature Physics (LT25), which took place in August 2008 in Amsterdam.

You can get stuck into this rich seam of research papers here

Matin Durrani was there and blogged from the event.

By Matin Durrani

It’s time for me to bow out of the LT25 low-temperature conference here in Amsterdam, which has just ended. The cool crowd will reconvene in three years’ time for LT26, which, I can reveal, will take place in Beijing, at a venue next to the current Olympic park. It’ll be the first time that China will host this triennial shindig.

Conference organiser Peter Kes from the University of Leiden gave some amusing insights into organising a conference of this scale, which saw a staggering 1482 participants. For example, stuffing the massive 380-page (double-sided) conference brochure into delegates’ shoulder bags required a small army of students, who hit a peak rate of 450 bags stuffed per hour.

Then there were the logistics of bussing 640 delegates on a trip to the University of Leiden to see the lab where Heike Kamerlingh Onnes won the race against Scottish physicist James Dewar to liquefy helium 100 years ago last month. Plus sorting out the conference dinner for nearing 600 people, which included hiring a flotilla of nine boats for the trip from the conference halls into town.

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Levitating a magnet using liquid nitrogen. (Credit: Yorick van Boheemen)

By Matin Durrani

Tucked away in the corner of the foyer at the RAI Convention Center in Amsterdam, where the 25th International Conference on Low-Temperature Physics has been taking place for the past week, I found a series of great little demonstrations by a group of students from the University of Leiden.

The students were showing highlights from a roadshow — dubbed “Freezing physics” — that they perform at about 120 schools and numerous science fairs around the Netherlands each year in an attempt to get people hooked on physics.

You won’t be surprised to find the usual “ooo, watch how this rubber band/tennis ball/banana goes really stiff when we dunk it into a bucket of liquid nitrogen” demonstrations, which are a staple of many public shows of this kind.

But the students, known collectively as the Rino Foundation, had some clever stuff up their sleeves too. One involved using the frozen banana to hammer a nail into a piece of wood. Another saw a hand-bell being cooled in liquid nitrogen and then rung after being frozen. As the material had stiffened considerably, the bell’s ring tone was much higher than when warm.

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By Matin Durrani

This is my second full day at the 25th International Conference on Low-Temperature Physics in Amsterdam — LT25 in the jargon — and it’s been a busy morning, despite last night’s marathon conference dinner at the five-star Hotel Krasnapolsky that lasted until gone 11 p.m.

Almost 600 delegates, myself included, were treated to a fairly decent three-course dinner that culminated in what was billed as a “grand dessert buffet”, which seemed to take forever to set up. Thankfully the wait for the profiteroles, fruit slices and cheesecake was ameliorated by a performance by a Dutch philosophy-graduate-turned-magician, whose name escapes me but who did some clever things with various delegates’ wedding rings.

We were also serenaded by a roving accordion player and guitarist who went from table to table and who claimed they could sing songs in 24 different languages. Which was great, I suppose, as long as you didn’t mind the fact they were all sung with a painfully thick Dutch accent. A Malaysian guy on my table, for example, seemed pretty unconvinced by the pair’s children’s song about a parrot.

But back to the physics. This morning I sat in on a session on “supersolids” — a strange new form of matter that some physicists think exists when helium-4 is cooled down to sufficiently low temperatures and subject to high enough pressure. The jury is still out on whether this form of matter exists, although the consensus, as far as I could tell from today, would be that it does.

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Laura Greene (left) and Setsuko Tajima (right) with the bust of Heike Kamerlingh Onnes, who liquefied helium 100 years ago last month. (Credit: Dirk van der Marel)

By Matin Durrani

With term over and no students to teach, the summer has always been peak season for scientific conferences. There’s no shortage of interesting meetings to pick from, but I am representing Physics World at the 25th International Conference on Low-Temperature Physics in Amsterdam.

One reason for attending is that the Dutch capital is a short flight from Physics World’s base in Bristol in the UK — so I am either saving money or minimizing my carbon footprint, depending on how you look at things.

Another reason is that IOP Publishing, which publishes Physics World, has had a big presence at the meeting as the proceedings are to appear in our very own Journal of Physics Conference Series.

More importantly, though, there’s just loads going on at this three-yearly bash — from fundamental studies into liquid helium to a host of talks on ultracold atom optics. But one of the highlights so far has been a special “romp” session last Friday on a new class of iron-based superconductors, known rather cumbersomely as the “oxy-pnictides”.

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