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baryon junctions (2) 2
chemical bonds (2) 2
forward rapidity (2) 2
laser‐assisted field evaporation (2) 2
limiting fragmentation (2) 2
particle ratios (2) 2
phase transitions (2) 2
proton collisions (2) 2
25.75.q, 25.40.-h, 13.75.-n (1) 1
[ phys.nexp ] physics [physics]/nuclear experiment [nucl-ex] (1) 1
amorpher zustand (1) 1
amorphous materials (1) 1
astronomy & astrophysics (1) 1
atom-probe (1) 1
atomsonde (1) 1
baryon number (1) 1
bismuth tellurides (1) 1
chalcogenides (1) 1
charge transfer (1) 1
chemical bonding (1) 1
chemical bonding in solids (1) 1
chemistry, multidisciplinary (1) 1
chemistry, physical (1) 1
crystal structure (1) 1
crystallinity (1) 1
density functional theory (1) 1
density functionals (1) 1
electric properties (1) 1
electrical conductivity (1) 1
electrical resistivity (1) 1
evaporation (1) 1
index medicus (1) 1
insulators (1) 1
interlayers (1) 1
klebmasse (1) 1
kristallphase (1) 1
laser-assisted field evaporation (1) 1
laserimpuls (1) 1
lasers (1) 1
materials design (1) 1
materials science, multidisciplinary (1) 1
metavalentbonding (1) 1
model (1) 1
nanoscience & nanotechnology (1) 1
nuclear and high energy physics (1) 1
nuclear experiment (1) 1
organic chemistry (1) 1
phase change materials (1) 1
phasenübergangswerkstoff (1) 1
physical properties (1) 1
physics, applied (1) 1
physics, condensed matter (1) 1
physics, nuclear (1) 1
physics, particles & fields (1) 1
sesqui‐chalcogenides (1) 1
specific gravity (1) 1
specific heat (1) 1
thermal energy (1) 1
thin-films (1) 1
tomographie (1) 1
transitions (1) 1
verdunstung (1) 1
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1. Full Text Unique Bond Breaking in Crystalline Phase Change Materials and the Quest for Metavalent Bonding
by Zhu, Min and Cojocaru‐Mirédin, Oana and Mio, Antonio M and Keutgen, Jens and Küpers, Michael and Yu, Yuan and Cho, Ju‐Young and Dronskowski, Richard and Wuttig, Matthias
Advanced Materials, ISSN 0935-9648, 05/2018, Volume 30, Issue 18, pp. 1706735 - n/a
Laser‐assisted field evaporation is studied in a large number of compounds, including amorphous and crystalline phase change materials employing atom probe... 
phase change materials | metavalentbonding | chemical bonding in solids | laser‐assisted field evaporation | laser-assisted field evaporation | THIN-FILMS | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | ATOM-PROBE | TRANSITIONS | Phase change materials | Lasers | Chemical bonds | Amorphous materials | Evaporation | Crystallinity | Phase transitions | Thermal energy | Crystal structure
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2. Full Text Understanding the Structure and Properties of Sesqui‐Chalcogenides (i.e., V2VI3 or Pn2Ch3 (Pn = Pnictogen, Ch = Chalcogen) Compounds) from a Bonding Perspective
by Cheng, Yudong and Cojocaru‐Mirédin, Oana and Keutgen, Jens and Yu, Yuan and Küpers, Michael and Schumacher, Mathias and Golub, Pavlo and Raty, Jean‐Yves and Dronskowski, Richard and Wuttig, Matthias
Advanced Materials, ISSN 0935-9648, 10/2019, Volume 31, Issue 43, pp. e1904316 - n/a
A number of sesqui‐chalcogenides show remarkable properties, which make them attractive for applications as thermoelectrics, topological insulators, and... 
materials design | sesqui‐chalcogenides | laser‐assisted field evaporation | chemical bonding | Density functionals | Electrical conductivity | Specific gravity | Electric properties | Chalcogenides | Organic chemistry | Interlayers | Bismuth tellurides | Specific heat | Electrical resistivity | Chemical bonds | Density functional theory | Insulators | Charge transfer | Physical properties | Phase transitions | Index Medicus
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3. Full Text Unique Bond Breaking in Crystalline Phase Change Materials and the Quest for Metavalent Bonding
by Zhu, Min and Cojocaru-Mirédin, Oana and Mio, Antonio M and Keutgen, Jens and Küpers, Michael and Yu, Yuan and Cho, Ju-Young and Dronskowski, Richard and Wuttig, Matthias
Advanced materials (Deerfield Beach, Fla.), 03/2018, p. e1706735
Laser-assisted field evaporation is studied in a large number of compounds, including amorphous and crystalline phase change materials employing atom probe... 
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4. Full Text Forward and midrapidity like-particle ratios from p+p collisions at root s=200 GeV
by Bearden, IG and Beavis, D and Besliu, C and Budick, B and Boggild, H and Chasman, C and Christensen, CH and Christiansen, P and Cibor, J and Debbe, R and Enger, E and Gaardhoje, JJ and Germinario, M and Hagel, K and Holm, A and Holme, AK and Ito, H and Jakobsen, E and Jipa, A and Jundt, F and Jordre, JI and Jorgensen, CE and Karabowicz, R and Keutgen, T and Kim, EJ and Kozik, T and Larsen, TM and Lee, JH and Lee, YK and Lovhoiden, G and Majka, Z and Makeev, A and Mikelsen, M and Murray, MJ and Natowitz, J and Nielsen, BS and Norris, J and Olchanski, K and Ouerdane, D and Planeta, R and Rami, F and Ristea, C and Rohrich, D and Samset, BH and Sandberg, D and Sanders, SJ and Scheetz, RA and Staszel, P and Tveter, TS and Videbaek, F and Wada, R and Wieloch, A and Yin, Z and Zgura, IS and BRAHMS Collaboration
PHYSICS LETTERS B, ISSN 0370-2693, 02/2005, Volume 607, Issue 1-2, pp. 42 - 50
We present a measurement of pi(-)/pi(+), K-/K+ and (p) over bar /p from p + p collisions at roots = 200 GeV over the rapidity range 0 < y < 3.4. For p(T) < 2.0... 
proton collisions | particle ratios | ASTRONOMY & ASTROPHYSICS | forward rapidity | PHYSICS, NUCLEAR | MODEL | limiting fragmentation | BARYON NUMBER | Baryon junctions | PHYSICS, PARTICLES & FIELDS | Forward rapidity | Particle ratios | Proton collisions | Limiting fragmentation
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5. Full Text Forward and midrapidity like-particle ratios from p+p collisions at s=200 GeV
by Bearden, I.G and Beavis, D and Besliu, C and Budick, B and Bøggild, H and Chasman, C and Christensen, C.H and Christiansen, P and Cibor, J and Debbe, R and Enger, E and Gaardhøje, J.J and Germinario, M and Hagel, K and Holm, A and Holme, A.K and Ito, H and Jakobsen, E and Jipa, A and Jundt, F and Jørdre, J.I and Jørgensen, C.E and Karabowicz, R and Keutgen, T and Kim, E.J and Kozik, T and Larsen, T.M and Lee, Y.K and Lee, J.H and Løvhøiden, G and Majka, Z and Makeev, A and Mikelsen, M and Murray, M.J and Natowitz, J and Nielsen, B.S and Norris, J and Olchanski, K and Ouerdane, D and Płaneta, R and Rami, F and Ristea, C and Röhrich, D and Samset, B.H and Sandberg, D and Sanders, S.J and Scheetz, R.A and Staszel, P and Tveter, T.S and Videbæk, F and Wada, R and Wieloch, A and Yin, Z and Zgura, I.S
Physics Letters B, ISSN 0370-2693, 02/2005, Volume 607, Issue 1-2, pp. 42 - 50
We present a measurement of , and from collisions at over the rapidity range . For we see no significant transverse momentum dependence of the ratios. All... 
Forward rapidity | Particle ratios | Proton collisions | Limiting fragmentation | Baryon junctions
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6. Die Beziehungen der Hanse zu England im letzten Drittel des vierzehnten Jahrhunderts: von dr. F. Keutgen
by Keutgen, Friedrich
1890, 98
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