Flying thimble. Effective trick and its solution

EFFECTIVE FOCUSES AND THEIR CLUES
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Flying thimble. Focus secret

Spectacular tricks and their clues

Directory / Spectacular tricks and their clues

Focus Description:

To perform this trick, you need an ordinary thimble, which the illusionist puts tightly on the middle finger of his right hand. The performer pats the left palm with two fingers of the right hand. One clap, two, three. And suddenly the thimble flies to the other finger! A few more claps - the thimble returns to its original place. Claps - flight. More claps - another flight ...

Technically, the trick is not difficult, but great dexterity is required.

Focus Flying thimble
Fig. 1

Focus secret:

Look closely at the drawings: the magician simply changes fingers, but the thimble does not move. Not everyone will succeed right away - quickly and imperceptibly bending one finger and straightening the other is not as easy as it seems: you need a certain flexibility and training of the hands. Rehearse and choose the pace of the clapping yourself: it should not be too slow (otherwise the audience will understand that the finger has been changed), but not too fast (let the audience see that the thimble has flown).

Focus Flying thimble
Fig. 2

Author: Akopyan A.A.

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Generation of stable femtosecond pulses 28.12.2013

The development of electronics and communications requires a hardware base that is highly accurate, economical and productive. For communications and GPS navigation satellites, it is especially important to reduce payload mass and improve signal stability.

Scientists from Moscow State University (MSU), together with their colleagues from Switzerland, are actively conducting research that will bring us closer to solving this problem, and will also prove useful in many other areas.

Recently, a publication appeared in the journal Nature Photonics, which describes the new achievements of this group of scientists. In particular, one of the authors of the article, Mikhail Gorodetsky, noted that the work includes at least three important results: scientists have discovered a technique for generating stable femtosecond pulses, the so-called "optical ridges" and microwave signals.

The physicists used a microresonator (in this particular case, a millimeter-scale magnesium-fluorite disk) to convert continuous laser radiation into periodic ultrashort pulses. The scope of these lasers ranges from the study of chemical reactions at ultrashort time intervals, and to eye surgery.

As Mr. Gorodetsky noted, traditional femtosecond mode-locked lasers use the most complex optical devices, a special transmission medium and micromirrors. The new invention makes it possible to obtain stable pulses (solitons) using only one passive optical resonator, or rather, its own non-linearity. In the future, this will make it possible to reduce the overall dimensions of devices of this type by an order of magnitude.

Pulses with a duration of 100–200 femtoseconds have been obtained in the laboratory, but the authors are confident that much shorter solitons can also be generated. The researchers suggest that their discovery will allow designing a new generation of compact, stable and cheap optical pulse generators that can operate in modes that are unattainable for devices using other technologies. At the same time, scientists have shown the possibility of generating signals with a very low noise level. Such microwave generators are especially important for metrological applications, radar, telecommunications equipment, including satellite communications, as well as broadband spectroscopy, telecommunications, and astronomy.

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