ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

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Einleitung in die theoretische Physik : Vorlesungen (1883)

Neumann, Franz Ernst ; Pape, Carl Johannes Wilhelm

Leipzig : Teubner

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Call number: H O 437/2

In: Vorlesungen über mathematische Physik

Type of Medium: Monograph non-lending collection

Pages: X, 291 S. : graph. Darst.

Series Statement: Vorlesungen über mathematische Physik

Location: Pendulum room

Branch Library: GFZ Library

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Petrogenesis and experimental petrology of granitic rocks (1996)

Johannes, Wilhelm ; Holtz, François

Berlin [u.a.] : Springer

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Call number: M 96.0288 ; 10/M 96.0287

In: Minerals and rocks

Type of Medium: Monograph available for loan

Pages: XIII, 335 S.

ISBN: 0387604162

Series Statement: Minerals and rocks 22

Classification:

Petrology, Petrography

Language: English

Location: Upper compact magazine

Location: Reading room

Branch Library: GFZ Library

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Formation and ascent of granitic magmas (1991)

Johannes, Wilhelm ; Holtz, François

Springer

International journal of earth sciences 80 (1991), S. 225-231

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ISSN: 1437-3262

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Description / Table of Contents: Abstract New results obtained by the investigation of liquidus and solidus phase relationships in the haplogranite system Qz-Ab-Or are used to discuss the evolution of magmas during their ascent in the crust. It is assumed that the magmas are formed at 720°C, 820°C, 920°C and at a depth corresponding to a pressure of 8 kbar. The starting composition of the magma is taken as 50% melt plus 50% quartz and feldspars. In case of a closed system (no heat exchange and no transfer of elements) the melt fraction of magmas, the water activity and the viscosity increase with decreasing pressure. The temperature slightly decreases. At 700°C the viscosity is approximatively 2 orders of magnitude lower than at 900°C. This is related to the higher amount of water in the (H2O-undersaturated) melt at low T. It is also shown that dehydration melting is only realistic at high T (900°C). At lower temperatures water has to be added from outside to obtain an intrusive magma with approximatively 50% melt.

Abstract: Résumé L'évolution des magmas granitiques au cours de leur ascension dans la croûte est discutée à la lumière de données nouvelles relatives aux relations entre phases liquides et solides dans le système Q-Ab-Or. On suppose que les magmas se forment à des températures de 720°C, 820°C, 920°C et à une profondeur correspondant à une pression de 8 Kb. On admet pour leur composition initiale un mélange de 50% de liquide et 50% de quartz + feldspaths. Dans le cas d'un système fermé (pas d'échange de chaleur ni de matière), la fraction liquide du magma, l'activité de l'eau et la viscosité augmentent quand la pression diminue; en même temps, la température décroît légèrement. A 700°C, la viscosité est d'environ 2 ordres de grandeur plus basse qu'à 900°C. Cette propriété est en relation avec la teneur en eau plus élevée dans le liquide (sous-saturé en eau) à basse température. On peut également montrer qu'une fusion déshydratante n'est vraisemblable qu'à haute température (900°C). Aux températures plus basses, de l'eau doit être apportée de l'extérieur pour l'obtention d'un magma à 50% de liquide.

Notes: Zusammenfassung Neue Ergebnisse, erzielt durch Untersuchungen von Liquidus und Solidus Phasenbeziehungen des Granitsystems Qz-Ab-Or, werden benutzt, um die Entwicklung eines granitoiden Magmas während seines Aufstiegs zu diskutieren. Es wird vorausgesetzt, daß die Magmen bei Temperaturen von 720°C, 820°C und 920°C gebildet werden, sowie in einer Tiefe die einem Druck von 8 kbar entspricht. Die anfängliche Zusammensetzung des Magmas wird mit einem Verhältnis von 50% Schmelze sowie 50% Quarz und Feldspäten angenommen. Im Falle eines geschlossenen Systems (kein Austausch von Wärme und Elementen) steigt die Teilschmelzbildung von Magmen, die Aktivität des Wassers und die Viskosität bei abnehmenden Druck; hierbei sinkt die Temperatur leicht. Bei 700°C ist die Viskosität um ca. 2 Größenordnungen geringer als bei 900°C. Dies wird bedingt durch den höheren Gehalt an Wasser in der (H2O-untersättigten) Schmelze bei tieferen Temperaturen. Es wird außerdem gezeigt, daß Magmenbildung durch Dehydratation nur bei hohen Temperaturen realistisch ist (900°C). Bei tieferen Temperaturen muß Wasser von außen zugeführt werden um ein intrusives Magma zu erhalten, das ungefähr 50% Schmelze besitzt.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01829362

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Transport von Feldspäten und Quarz im Temperaturgefälle (1965)

Johannes, Wilhelm ; Winkler, H. G. F.

Springer

Contributions to mineralogy and petrology 11 (1965), S. 250-271

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract In the attempt to study the composition and behaviour of metasomatically active solutions we have examined the kind of gaseous solutions which are formed by water in contact with the minerals of a granite under a pressure of 2000 bars at 600° C, and how these solutions behave within a temperature gradient at the same pressure. The temperature ranged from 620° to 180° C. The following minerals were considered: quartz, K-feldspar (adularia), plagioclase (andesine) and mixtures of quartz with adularia, quartz with andesine, quartz with adularia and andesine, quartz mixed with mierokline-perthite, oligoelase and biotite. All these minerals are completely dissolved by water under these physical conditions. The solutions always contain more silica than the minerals, if quartz is present. The dissolved components are transported within the temperature gradient. In the solutions, Ca derived from the anorthite-component of the plagioclase and Mg from the biotite form associations together with silica, which travel tohigher temperatures. There they crystallize in form of wollastonite and/or diopside. On the other hand, Na and K, AI and the Fe from the biotite and the largest part of the silica, travel from the 600° C-region tolower temperatures. There they crystallize in form of quartz, K-feldspar, albite, some muscovite and Mg-free biotite rich in Fe. In experiments of only short duration, metastable analcime instead of albite has been formed. In long lasting experiments of 10 weeks, a separation of Na and K was evident: Albite was formed in the temperature range 470° to 420° C, whereas K-feldspar (with some albite component) and Mg-free biotite crystallize together with quartz in a larger temperature range below 420° C; see figure 6. The different minerals from a mixture influence each other's solubility in such a way that the amount of both feldspars and quartz dissolved and transported within a unit of time is decreased. Compared with the amount obtained when quartz alone constitutes the solid phase, only 40 % of that amount is dissolved and transported when the quartz had been mixed with adularia; the value amounts to only 30% when it was mixed with andesine. When both feldspars. are present together with quartz, the amount of dissolved and transported quartz is decreased to about 20 % of the original amount; see table 7. However, in all cases the amount of dissolved quartz is larger than the sum of the dissolved feldspar substances. Thus, the solution formed from a mixture of quartz and feldspars which is transported to lower temperatures always contains more silica than the mineral mixture. The amount of adularia dissolved and transported is reduced by the presence of quartz to 1/6 of that amount furnished at 6000 C by adularia alone. Under the same conditions the amount of andesine is reduced to one half. — The amount of adularia transported per unit of time is nearly equal to the amount of plagioclase components if quartz is present. However, if no quartz is present, the proportion of dissolved and transported adularia to plagioclase-components is noticeably shifted in favour of adularia. This would be the case with syenite as the source for the solutions. In the attempt to produce skarns in a way closely related to nature, silica-rich solutions from a granite have been brought into contact with dolomite. The contact was situated at 600°, 570° and 500° C. With equal duration of the experiments, the results were similar. With different durations the following effect was observed: at the beginning, the silica-rich solution reacts with the dolomite under formation of forsterite, calcite and C02. When more materialis transported into the contact,region diopside (the mineral containing more silica) is formed from calcite, forsterite and additional silica. When the same metasomatically active solution meets a marble, (contact at 600° C) wollastonite is formed. In these metasomatic processes the partial pressure of C02 in the gasphase remained low under our experimental conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01172136

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Liquidus temperatures and phase compositions in the system Qz-Ab-Or at 5 kbar and very low water activities (1998)

Becker, Andreas ; Holtz, Francois ; Johannes, Wilhelm

Springer

Contributions to mineralogy and petrology 130 (1998), S. 213-224

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Liquidus phase relations have been experimentally determined in the systems Qz-Ab-Or-(H2O), Qz-Ab-(H2O) and Qz-Or-(H2O) at H2O-undersaturated conditions (a H2O = 0.07) and P = 5 kbar. Starting materials were homogeneous synthetic glasses containing 1 wt% H2O. The liquidus temperatures were bracketed by crystallization and dissolution experiments. The results of kinetic studies showed that crushed glasses are the best starting materials to overcome undercooling and to minimize the temperature difference between the lowest temperature of complete dissolution (melting) and the highest temperature at which crystallization can be observed. At P = 5 kbar and a H2O = 0.07, the Qz-Ab eutectic composition is Qz32Ab68 at 1095 °C (±10 °C) and the Qz-Or eutectic is Qz38Or62 at 1030 °C (±10 °C). The minimum temperature of the ternary system Qz-Ab-Or is 990 °C (±10 °C) and the minimum composition is Qz32Ab35‐ Or33. The Qz content of the minimum composition in the system Qz-Ab-Or-H2O remains constant with changing a H2O. The normative Or content, however, increases by approximately 10 wt% with decreasing a H2O from 1 to 0.07. Such an increase has already been observed in the system Qz-Ab-Or-H2O-CO2 at high a H2O and it is concluded that the use of CO2 to reduce water activities does not influence the composition of the minima in quartz-feldspar systems. The determined liquidus temperature in melts with 1 wt% H2O is very similar to that obtained in previous nominally “dry” experiments. This discrepancy is interpreted to be due to problems in obtaining absolutely dry conditions. Thus, the hitherto published solidus and liquidus temperatures for “dry” conditions are probably underestimated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004100050361

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Melting of plagioclase in the system Ab − An − $${\text{H}}_{\text{2}} {\text{O}}$$ and Qz − Ab − An − $${\text{H}}_{\text{2}} {\text{O}}$$ at P H 2 O =5 kbars, an equilibrium problem (1978)

Johannes, Wilhelm

Springer

Contributions to mineralogy and petrology 66 (1978), S. 295-303

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Melting experiments were performed in the systems at P H 2 O =5 kbars. The compositions of the plagioclases coexisting with melt or with melt and quartz were determined. The data obtained in the plagioclase-water systems show that the reaction rate decreases exponentially with decreasing temperature. Plagioclase compositions do not change any further for run times ≧ 1 h at 1000° C and are considered to have reached equilibrium. At 900° C run times of approximately 200 h are necessary to approach equilibrium. At 800° C the reaction is too slow to attain constant compositions within reasonable times. The solidus of the system Qz-Ab-An-H2O was reversed using mixtures of 95% plagioclase and 5% quartz. This solidus gives the equilibrium compositions of plagioclase for any combination plagioclase-quartz-melt. A series of comparative experiments was also made with An20 and An40, mixed with quartz in the ratio plagioclase/quartz: 1/1, because theoretically the equilibrium solidus composition of plagioclase should be independent of the plagioclase/quartz ratio. However, at various run times and temperatures, the plagioclase compositions thus obtained approached the equilibrium solidus compositions only very slowly. It is extrapolated that at 730° C about 100,000 years are needed to reach equilibrium composition. The experimental data show that it is not possible to reach equilibrium in the investigated tonalite- and anorthosite-system around and below 800° C in run times available in the laboratory. It is also concluded that many investigations performed in the granite system Qz-Or-Ab-An-H2O did not reach equilibrium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00373413

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The system CaO-Al2O3-SiO2-H2O: new phase equilibria data, some calculated phase relations, and their petrological applications (1984)

Chatterjee, Niranjan D. ; Johannes, Wilhelm ; Leistner, Hans

Springer

Contributions to mineralogy and petrology 88 (1984), S. 1-13

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00371407

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Dehydration melting of tonalites. Part II. Composition of melts and solids (1996)

Singh, J. ; Johannes, Wilhelm

Springer

Contributions to mineralogy and petrology 125 (1996), S. 26-44

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Dehydration melting of tonalitic compositions (phlogopite or biotite-plagioclase-quartz assemblages) is investigated within a temperature range of 700–1000°C and pressure range of 2–15 kbar. The solid reaction products in the case of the phlogopite-plagioclase(An45)-quartz starting material are enstatite, clinopyroxene and potassium feldspar, with amphiboles occurring occasionally. At 12 kbar, zoisite is observed below 800°C, and garnet at 900°C. The reaction products of dehydration melting of the biotite (Ann50)-plagioclase (An45)-quartz assemblage are melt, orthopyroxene, clinopyroxene, amphibole and potassium feldspar. At pressures 〉 8 kbar and temperatures below 800°C, epidote is also formed. Almandine-rich garnet appears above 10 kbar at temperatures ≥ 750°C. The composition of melts is granitic to granodioritic, hence showing the importance of dehydration melting of tonalites for the formation of granitic melts and granulitic restites at pressure-temperature conditions within the continental crust. The melt compositions plot close to the cotectic line dividing the liquidus surfaces between quartz and potassium feldspar in the haplogranite system at 5 kbar and a H 2O = 1. The composition of the melts changes with the composition of the starting material, temperature and pressure. With increasing temperature, the melt becomes enriched in Al2O3 and FeO+MgO. Potash in the melt is highest just when biotite disappears. The amount of CaO decreases up to 900°C at 5 kbar whereas at higher temperatures it increases as amphibole, clinopyroxene and more An-component dissolve in the melt. The Na2O content of the melt increases slightly with increase in temperature. The composition of the melt at temperatures 〉 900°C approaches that of the starting assemblage. The melt fraction varies with composition and proportion of hydrous phases in the starting composition as well as temperature and pressure. With increasing modal biotite from 20 to 30 wt%, the melt proportion increases from 19.8 to 22.3 vol.% (850°C and 5 kbar). With increasing temperature from 800 to 950°C (at 5 kbar), the increase in melt fraction is from 11 to 25.8 vol.%. The effect of pressure on the melt fraction is observed to be relatively small and the melt proportion in the same assemblage decreases at 850°C from 19.8 vol.% at 5 kbar to 15.3 vol.% at 15 kbar. Selected experiments were reversed at 2 and 5 kbar to demonstrate that near equilibrium compositions were obtained in runs of longer duration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004100050204

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Loss of iron to the Pt-container in melting experiments with basalts and a method to reduce it (1978)

Johannes, Wilhelm ; Bode, Brunhild

Springer

Contributions to mineralogy and petrology 67 (1978), S. 221-225

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The loss of iron from basalts to Pt containers has been investigated as a function of temperature, hydrogen fugacity, run duration, and Fe content of the sample. The loss of iron is very significant even after a short time and increases with increasing temperature and run duration and increasing hydrogen fugacity. The absorbed iron is concentrated in the inner half of the Pt-wall. The iron-containing zone of the Pt broadens only slightly with increasing run duration. Based upon this uneven distribution of Fe in the Pt-wall, a method is developed to reduce iron loss from the sample. By electroplating, a thin film of metallic iron is coated onto the inner surface of the capsule wall in order to get a Fe-Pt alloy in the inner section of the Pt-tube.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01046578

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Beginning of melting in the granite system Qz-Or-Ab-An-H2O (1984)

Johannes, Wilhelm

Springer

Contributions to mineralogy and petrology 86 (1984), S. 264-273

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The beginning of melting in the system Qz-Or-Ab-An-H2 O was experimentally reversed in the pressure range $$P_{{\text{H}}_{\text{2}} {\text{O}}} = 2 - 15$$ kbar using starting materials made up of mixtures of quartz and synthetic feldspars. With increasing pressure the melting temperature decreases from 690° C at 2 kbar to 630° C at 17 kbar in the An-free alkalifeldspar granite system Qz-Or-Ab-H2O. In the granite system Qz-Or-Ab-An-H2O the increase of the solidus temperature with increasing An-content is only very small. In comparison to the alkalifeldspar granite system the solidus temperature increases by 3° C (7° C) if albite is replaced by plagioclase An 20 (An 40). The difference between the solidus temperatures of the alkalifeldspar granite system and of quartz — anorthite — sanidine assemblages (system Qz-Or-An-H2O) is approximately 50° C. With increasing water pressures plagioclase and plagioclase-alkalifeldspar assemblages become unstable and are replaced by zoisite+kyanite+quartz and zoisite+muscovite-paragonitess +quartz, respectively. The pressure stability limits of these assemblages are found to lie between 6 and 16 kbar at 600° C. At high water pressures (10–18 kbar) zoisite — muscovite — quartz assemblages are stable up to 700 and 720° C. The solidus curve of this assemblage is 10–20° C above the beginning of melting of sanidine — zoisite — muscovite — quartz mixtures. The amount of water necessary to produce sufficient amounts of melt to change a metamorphic rock into a magmatic looking one is only small. In case of layered migmatites it is shown that 1 % of water (or even less) is sufficient to transform portions of a gneiss into (magmatic looking) leucosomes. High grade metamorphic rocks were probably relatively dry, and anatectic magmas of granitic or granodioritic composition are usually not saturated with water.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00373672

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