02690nam 2200457 450 99641843860331620210225101741.03-030-53088-410.1007/978-3-030-53088-4(CKB)4100000011476541(MiAaPQ)EBC6357804(DE-He213)978-3-030-53088-4(PPN)250221470(EXLCZ)99410000001147654120210225d2020 uy 0engurnn|008mamaatxtrdacontentcrdamediacrrdacarrierCaustic light in nonlinear photonic media /Alessandro Zannotti1st ed. 2020.Cham, Switzerland :Springer,[2020]©20201 online resource (XIII, 180 p. 70 illus., 59 illus. in color.) Springer Theses, Recognizing Outstanding Ph.D. Research,2190-50533-030-53087-6 Introduction and Motivation -- Realization and Exploration of Structured Light and Photonic Structures -- Elementary Optical Catastrophes and Caustic-Based Photonic Structures -- Propagation-Invariant Caustics -- Caustic Networks and Rogue Waves -- Conclusion and Outlook.Caustics are natural phenomena, forming light patterns in rainbows or through drinking glasses, and creating light networks at the bottom of swimming pools. Only in recent years have scientists started to artificially create simple caustics with laser light. However, these realizations have already contributed to progress in advanced imaging, lithography, and micro-manipulation. In this book, Alessandro Zannotti pioneers caustics in many ways, establishing the field of artificial caustic optics. He employs caustic design to customize high-intensity laser light. This is of great relevance for laser-based machining, sensing, microscopy, and secure communication. The author also solves a long standing problem concerning the origin of rogue waves which appear naturally in the sea and can have disastrous consequences. By means of a far-reaching optical analogy, he identifies scattering of caustics in random media as the origin of rogue waves, and shows how nonlinear light-matter interaction increases their probability.Springer Theses, Recognizing Outstanding Ph.D. Research,2190-5053Caustics (Optics)Caustics (Optics)535.32Zannotti Alessandro841958MiAaPQMiAaPQMiAaPQBOOK996418438603316Caustic Light in Nonlinear Photonic Media1879288UNISA03116nam 2200409z- 450 991056315470332120231214133229.0(CKB)5680000000036124(oapen)https://directory.doabooks.org/handle/20.500.12854/38822(oapen)doab38822(EXLCZ)99568000000003612420||||||d2019 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierQuantifying the UnknownMarine Mineral Resource Potential on the Norwegian Extended Continental ShelfOsloCappelen Damm Akademisk/NOASP (Nordic Open Access Scholarly Publishing)20191 online resource (138 p.)82-02-66260-5 "Copper, zinc, gold and silver mineralizations exist on the deep ocean floor, at great depths, on the Mid-Atlantic Ridge between Jan Mayen and Spitsbergen. None of these mineralizations within Norwegian jurisdiction have been thoroughly investigated yet, but they are likely to contain significant amounts of minerals and metals crucial to society and the 'Green Shift'. Should these mineralizations, which contain minerals and metals that you and I use every day, be developed and mined? The question is premature: we need to know more before we can answer it. We need to know more about the formation, location and characteristics of these potential deposits, as well as the environmental, social and financial consequences of potential extraction. We need to evaluate mining alternatives and how to process the extracted ore. How should we answer this question? The ultimate decisions will be determined politically, and knowledge will be the defining factor. Knowledge gained from proper mineral resource management. Quantifying the Unknown sets out to estimate the amount of minerals and metals on the deep ocean floor along the Mid-Atlantic Ridge, in particular, copper, zinc, gold and silver contained in so-called 'seafloor massive sulphide deposits'. These deposits are modern analogues of those mined worldwide on land today. The method used to quantify the amounts of these resources is known as 'play analysis'. It shares aspects of methodologies used on land for similar purposes and has been employed extensively to assess untapped petroleum resources on the Norwegian Continental Shelf. Play analysis enables a quantification of the potential as well as associated uncertainty. The potential is large, but the uncertainty is also significant. Whether and how this potential is realized remains to be seen."Quantifying the Unknown Science: general issuesbicsscestimatesmetalsMid-Atlantic ridgemineralsminingquantifyingScience: general issuesLøve Ellefmo Steinarauth1292550Søreide FredrikauthBOOK9910563154703321Quantifying the Unknown3022385UNINA03021oas 2201213 a 450 991015453740332120251105213014.01943-393X(DE-599)ZDB2480891-X(OCoLC)235533691(CONSER) 2008212296(CKB)1000000000429266(EXLCZ)99100000000042926620080723a20099999 sy aengur|||||||||||txtrdacontentcrdamediacrrdacarrierAttention, perception & psychophysicsAustin, Tex. Psychonomic SocietyNew York SpringerRefereed/Peer-reviewed1943-3921 Attention, perception and psychophysicsAtten. percept. psychophys.Senses and sensationPeriodicalsPerceptionPeriodicalsAttentionPeriodicalsPsychophysicsPeriodicalsPerceptionPsychophysiologyAttentionSens et sensationsPériodiquesPerceptionPériodiquesAttentionPériodiquesPsychophysiquePériodiquesAttentionfast(OCoLC)fst00820788Perceptionfast(OCoLC)fst01057622Psychophysicsfast(OCoLC)fst01081670Senses and sensationfast(OCoLC)fst01112562Periodical.Periodicals.fastPeriodicals.lcgftSenses and sensationPerceptionAttentionPsychophysicsPerception.Psychophysiology.Attention.Sens et sensationsPerceptionAttentionPsychophysiqueAttention.Perception.Psychophysics.Senses and sensation.152.1Psychonomic SocietyNSDNSDNSDCLUBUFDLCNSDOCLCQUKMGBOCLCQBUFOCLCQOCLCFOCLCQOCLCATSCKSUNTGOCLCOAU@OCLCOWYUOCLCOU3WOCLCOAUDOCLCATKNDLCRDFOCLCQOCLCOSFBOCLCQREDDCSMCUEJOCLCLOCLCQJOURNAL9910154537403321Attention, perception & psychophysics1413792UNINA