 Vse zelo izgleda način ljudi in zelo izgleda način ljudi in tudi izgleda način ljudi, način tačnji vsega, pa tačnji je nekaj, tudi zelo vsega, kaj tačnji je vzelo, vzelo, silika, drugi silika, nekaj, In je to zela, zelo, zelo, zelo, zelo, zelo, zelo in različno materijale. A čas na početkivom, bo malo, bo mačnja, bo mačnja, ali ne bi mačnja, da bi so nekaj do vrščenj limič. Ne bi mi mačnja, da so nekaj do vrščenj početku. Spotaklje v vrščenj vrščenji je nekaj 1 mikroč. Zelo je nekaj nekaj 1 mikroč. ali so nekaj bolj bolj bolj. V pravne izglede, ki je vse mikro, spesijelne izglede, je to pravne izglede, kako je vse film produce. Vseh imam zelo, da je vse vse izglede. Vse sem vzelo, da se zelo, da se počuče, kako je dobro. Zelo je več semč. Zelo smo silnice vstratil, vzelo je glas, in se zelo, nekaj, 15 nanometeri, z zelo zelo zelo. Vsleda je vse deločnice, je vzelo v diametri, nekaj je vse deločnice, nekaj je vse deločnice, je vse deločnice, je vse deločnice. I z čutku lajup. Srečo zelo ti je všetnja v tem knoče, kaj je ljudi, všeč na nječske vrštice z videu. Sleda pa na 1 in 2 separatedc, zelo je izpravila, kako je od vakum media v kontaktu. Zelo je cijelje se doskuzila. In pa za vse datanje, Zelo je skrbosti delaj, če je zelo nr. 30 km, da je nekaj 50 km, boš nekaj 20 km. Vse površt je, da je to nekaj izgleda. Površt je, da se prišlo, da je površt takoč, da je bilo proste, površt je površt. V zelo je niča. V zelo je niča. Protože stačno čakaj je niča. Akustikačne se načinje, da je počutno vse vseh posrednji proces. Počutno je pristupil almost način. Počutno zelo smo energijem več in do zelo. Zelo smo načinje parametranje, Če je prišljena prišljena, kako je zeločila, kako je zeločila energija. Substrat je nekontaktiv, je deletri. Ne metali. Zeločil je nekaj penetrat in substrat. Substrat je zeločil in zeločil. Zeločil je prišljena in prišljena v kontakt. prejz v substrati in substrati reakti in prejz v filmi. In, kaj smo vse prejsah v kontaktu, vse prejsah v kontaktu, smo vse prejsah v tim. Tako, imamo momentov, vrtečnje momentov akamulati v piste v filmi v tim, kaj pa prejsah je pozitiv. in zapotrenjajo se. In s tem, ki je zelo, nekaj z vrštih metalov, je zelo srečnja. Stoji srečnja. Ali kako je zelo, nekaj zelo, nekaj pričaj se zelo, nekaj zelo, nekaj zelo izsnežijo, nekaj zelo, nekaj čusti in po vse, tukaj, na kontaktu. Tukaj, skupaj, when refraction from the vacuum side come here it begins to decrease when it will decrease more come to be negative, this is positive, this is negative region but if we neglect cohesion between feel and substrate, neglect be small then if it comes to something zero value the substrate will fly away why? because we just integrate this pressure in time so area is finite, we divide to the thickness and obtain velocity of separation ok and the energy profile on the target it is profiled and have some diameter diameter and this is heated around away from the beam action area it just remain cold just room temperature only heat is heated ok and this is absorbed energy and this is velocity gained due to this absorption and due to pressure increase and due to reaction of substrate so this is velocity it fly away with velocity was it form it form something like this some blistering some dome like structure we feel just separate from substrate and so it is not so surprising that we have some with dome it just due to action of action of larger profile ok so I hope that it is obvious for you why the blistering and the dome appears it is more or less obvious but why why the jet appears in the tip the jet it just due to surface tension typically when it is separated it is molten it is liquid in liquid state so surface tension act surface tension act in normal direction into the inside cavity so this is just capillary pressure and we just decomposed it to the vertical and horizontal component vertical component will concentrate motion so it start with some velocity but after some time this velocity decay decay decay decay and even it can go down back in opposite direction back to this substrate but we are also this horizontal component and this horizontal component concentrate mass to the axial region and due to this concentration this jet appears and this situation is very similar to the related or instability in white sense which is topic of this conference imagine let's imagine that we sit somewhere here in the frame of the shell in the frame of the dome then due to this deceleration due to Einstein principle of gravity and inertial acceleration equivalence it is equivalent for us sitting in the frame in this frame to appearance of the gravity force so we sit here this is in our frame this is motionless so we sit here but gravity force appears and it just move matter like in the sink where we wash our faces so water just go down to the sink the same is here and then in part of this produce this jet so the sense is very simple ok and we develop some fin-fi lambo approximation so we just take curvature and just due to equations for this you can integrate it with just curvature we have two components one due to this curvature and another one due to conical shape for this so you know laplacian term have two curvature they called main curvature and this is just some of these two curvature so it produce curvature and you just multiply it to the surface coefficient and obtain force which change shape of the film and here the one one is just the solution of this equation due to concentration to the axis it has this feature but we two and three is just from molecular dynamics at the same initial condition and in molecular dynamics we have finite thickness of the shell so this is thickness of the shell between this and this so it is finite thickness not infinitely thin as in this model in this model we neglect thickness we just operate with surface density mass per square centimeter of the surface and you see that they are more or less good and this means that the jet begin to appears in the tip and what about this curve number four this is inertial flight so if surface tension will be zero then film will fly with initial velocity the energy profile is gaussian so it just follow the gaussian profile it just fly away with constant velocity but due to surface tension we see important corrections to this free flight and this is just simulation done by large scale few hundred million atoms and we include it is important that we include this analytical model we have a thin field liquid all times but in reality very important process is cooling cooling of the field because outside film is cold therefore due to lateral heat conduction which is large in the metal case and the object is small it cool down it freeze down and re-crystallize so the green colors means solid state we see many many nano crystalline inside with solid we see droplet formation and the cooling rate is high enough therefore it stop it it is similar to these experimental pictures in another case the cooling is slightly more slow but we have time to freeze all the jet before jet fly away and due to lateral instability in the first day Vasilij Żachowski described it more or less definitely it decay into droplets which also are collected in experiment with droplets are collected this is nanoparticles where size is something like 10-20 nanometers and you see that it freeze and the rupture of the jet may take place even in solid state due to inertia forces and these droplets lose their connection with the bulb therefore they are liquid for long time because the radiative cooling is very slow and this is our experimental partners from Vladivostok and from physical institute of academy of science in Moscow and we do different type of experiments we just use scanning electron microscope to see the structure we do forecast ion beam cutting so we can cut it very thin very well forecast ion beam and we can do this X-ray diffraction spectroscopy and define the thickness of the distopped film and here we compare the experimental here it is we read one it is our simulation so more or less it is good agreement and this is typical structure so if we have fast freezing we obtain this for slow freezing we obtain the droplets flying away and for very slow freezing it just break away and just hole fill hole appears and in this case it is ruptured into solid state we just follow this process how it ruptured in the solid state and this is atomic eye package allow us to follow position of every atom in simulation but of course this is very small small region here I have to finish so this is moving how it goes this rupture this is solid but solid can move due to deformation and this is comparison with experimental we also see such structures and also we find this 5 fold symmetry inside the jet somewhere here it is abnormal it may be obtained only in small volumes in condition of very fast crystallization and this is my conclusion so we understand now how this droplets appears it has a wide range of application like surface enhance Raman scattering we produce actually only one of this bound but we produce lattice of this bound something like centimeter per centimeter at the distance something like one micron and the surface properties of such functional surface is different from the gold so reflection coefficient differ and so on and so on so it is more or less useful for application thank you for your attention maybe you have some not so much question again