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Journal articles on the topic 'HESSII'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Wagner, Norbert. "Lat.-germ. Chatti und ahd. Hessi ,Hessen." Historical Linguistics 124, no. 1 (July 1, 2011): 277–80. http://dx.doi.org/10.13109/hisp.2011.124.1.277.

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2

Beims, Klaus-Dieter. "Von den Grenzen einer frühneuzeitlichen Biographie: Melchior Adams Vita Helii Eobani Hessi und ihre Quellen." Daphnis 46, no. 3 (May 18, 2018): 345–426. http://dx.doi.org/10.1163/18796583-10000004.

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Melchior Adam’s collection of biographies offers a unique insight into the intellectual history of the German-speaking cultural world from the late 15th century onwards. Using the Vita Helii Eobani Hessi as an example, this article examines the different sources available to Adam. Furthermore, the article analyses the selection and literary transformation of these sources in Adam’s biography. The image of Hessus in Adam’s main source already shows all the evidence of being just a construction; the essay examines if Adam is checking the construction in a critical manner or if he just accepts it. By comparing the sources that Adam used, the limits of the biography’s historical content are revealed.
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3

Schallreuter, Roger. "Mikrofossilien aus dem Ostrakodenkalk (Silur) der Lindener Mark bei Gießen (Hessen) (Microfossils from the Ostrakodenkalk (Silurian) of the Lindener Mark near Giessen (Hesse))." Neues Jahrbuch für Geologie und Paläontologie - Monatshefte 1991, no. 2 (February 1, 1991): 105–18. http://dx.doi.org/10.1127/njgpm/1991/1991/105.

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4

Karmini, Mimin, and H. Yuniarto. "BIOSTRATIGRAFI FORAMINIFERA KUARTER PADA BOR INTI MD 982152 DAN 982155 DARI SAMUDRA HINDIA." JURNAL GEOLOGI KELAUTAN 11, no. 2 (February 16, 2016): 55. http://dx.doi.org/10.32693/jgk.11.2.2013.231.

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Dari bor inti pada EKSPEDISI IMAGES, di Samudra Hindia, telah diteliti sebanyak 21 percontoh sedimen dari lokasi MD 982152, dan 29 buah dari lokasi MD 982155 untuk kepentingan biostratigrafi berdasarkan analisis foraminifera plankton dalam interval 1,5 meter. Pada kedua penampang bor inti tersebut hanya dijumpai satu zona foraminifera plankton Kuarter, yaitu Zona Globorotalia truncatulinoides. Untuk MD 982152, zona ini bisa dibagi ke dalam dua subzona, yakni Subzona-subzona Globorotalia crassaformis hessi dan Globigerinella calida, sedangkan untuk MD 982155, zona tersebut bisa dibagi lagi ke dalam tiga subzona, yakni Subzona-subzona Globorotalia crassaformis hessi Globigerinella calida, dan Beella digitata. Kejadian yang signifikan di kedua penampang itu adalah Datum Pemunculan Pertama dari Globigerinella calida dan Pemunculan Akhir dari Globorotalia crassaformis hessi. Pada MD 982155, dijumpai Pemunculan Pertama dari Beella digitata. Kata kunci: foraminifera plankton, Kuarter, biostratigrafi, Samudra Hindia. From IMAGES Expedition in Indian Ocean, 21 samples from MD 982152, and 29 samples from MD 982155 had been studied for the purpose of biostratigraphy based on planktonic foraminifera within 1,5 meter interval. In both sections, only one Quaternary zone is found, namely Globorotalia truncatulinoides Zone. For MD 982152, that zone can be subdivided into two interval subzones e.g. Globorotalia crassaformis hessi and Globigerinella calida calida. However, in MD 982155 Globorotalia truncatulinoides Zone can be subdivided into three subzones namely, Globorotalia crassaformis hessi, Globigerinella calida calida, and Beella digitata Subzones. The planktonic foraminifera event revealed in both sections are the First Appearance Datum (FAD) of Globigerinella calida calida and the Last Appearance (LAD) of Globorotalia crassaformis hessi. In MD 982155 the FAD of Beella digitata is found. Keywords: planktonic foraminifera, Quaternary, biostratigraphy, Indian Ocean.
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5

Kratz-Lucas, Karl-Heinz. "Hessen." Bibliotheksdienst 47, no. 8-9 (September 3, 2013): 624–25. http://dx.doi.org/10.1515/bd-2013-0070.

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6

SHIMA, Hirohiko. "Hessian manifolds of constant Hessian sectional curvature." Journal of the Mathematical Society of Japan 47, no. 4 (October 1995): 735–53. http://dx.doi.org/10.2969/jmsj/04740735.

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7

Chen, Pei. "Hessian Matrix vs. Gauss–Newton Hessian Matrix." SIAM Journal on Numerical Analysis 49, no. 4 (January 2011): 1417–35. http://dx.doi.org/10.1137/100799988.

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8

Chen, B. H., J. E. Foster, J. E. Araya, and P. L. Taylor. "Parasitism of Mayetiola destructor (Diptera: Cecidomyiidae) by Platygaster hiemalis (Hymenoptera: Platygasteridae) on Hessian Fly-Resistant Wheats2." Journal of Entomological Science 26, no. 2 (April 1, 1991): 237–43. http://dx.doi.org/10.18474/0749-8004-26.2.237.

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Laboratory studies were conducted to determine the effect of three wheat cultivars, ‘Knox 62,’ ‘Caldwell,’ and ‘Monon,’ on the Hessian fly; Mayetiola destructor (Say), and its parasitoid, Platygaster hiemalis Forbes. The number of Hessian flies that survived from the egg to the “flaxseed” stage, the number of Hessian flies parasitized by P. hiemalis, and the average number of parasitoids produced within each parasitized puparium were used to determine the effect of the cultivar on the Hessian fly and indirectly on the parasitoid. The fewest surviving Hessian flies, and the least level of parasitism were found on Knox 62. Cultivars which had high antibiosis against the Hessian fly also reduced the effectiveness of this parasitoid. Furthermore, resistance and parasitism complemented each other in reducing the numbers of Hessian flies.
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9

Liu, Yuzhu, Zheng Wu, Hao Kang, and Jizhong Yang. "Use of prismatic waves in full-waveform inversion with the exact Hessian." GEOPHYSICS 85, no. 4 (May 8, 2020): R325—R337. http://dx.doi.org/10.1190/geo2018-0625.1.

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The truncated Newton method uses information contained in the exact Hessian in full-waveform inversion (FWI). The exact Hessian physically contains information regarding doubly scattered waves, especially prismatic events. These waves are mainly caused by the scattering at steeply dipping structures, such as salt flanks and vertical or nearly vertical faults. We have systematically investigated the properties and applications of the exact Hessian. We begin by giving the formulas for computing each term in the exact Hessian and numerically analyzing their characteristics. We show that the second term in the exact Hessian may be comparable in magnitude to the first term. In particular, when there are apparent doubly scattered waves in the observed data, the influence of the second term may be dominant in the exact Hessian and the second term cannot be neglected. Next, we adopt a migration/demigration approach to compute the Gauss-Newton-descent direction and the Newton-descent direction using the approximate Hessian and the exact Hessian, respectively. In addition, we determine from the forward and the inverse perspectives that the second term in the exact Hessian not only contributes to the use of doubly scattered waves, but it also compensates for the use of single-scattering waves in FWI. Finally, we use three numerical examples to prove that by considering the second term in the exact Hessian, the role of prismatic waves in the observed data can be effectively revealed and steeply dipping structures can be reconstructed with higher accuracy.
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10

Levin, Solly. "Hessel Utian." South African Medical Journal 104, no. 4 (January 20, 2014): 270. http://dx.doi.org/10.7196/samj.7935.

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11

Moazzemi, Kasra, Biswadip Maity, Saehanseul Yi, Amir M. Rahmani, and Nikil Dutt. "HESSLE-FREE." ACM Transactions on Embedded Computing Systems 18, no. 5s (October 19, 2019): 1–19. http://dx.doi.org/10.1145/3358203.

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12

Colesanti, Andrea, Monika Ludwig, and Fabian Mussnig. "Hessian valuations." Indiana University Mathematics Journal 69, no. 4 (2020): 1275–315. http://dx.doi.org/10.1512/iumj.2020.69.7960.

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13

BASHFORD, L. A., M. D. EASTHAM, J. P. HILTON, W. S. HOLDEN, L. Horton, R. S. Thomas, and F. N. Woodward. "Alginate Hessian." Journal of the Society of Dyers and Colourists 73, no. 5 (October 22, 2008): 203–8. http://dx.doi.org/10.1111/j.1478-4408.1957.tb02192.x.

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14

sv. "KV HESSEN." Der Hausarzt 50, no. 3 (February 2013): 12. http://dx.doi.org/10.1007/s15200-013-0129-6.

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15

Mangold, Niklas. "FVDZ Hessen." Der Freie Zahnarzt 61, no. 4 (March 29, 2017): 37. http://dx.doi.org/10.1007/s12614-017-6737-0.

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16

Bär, Werner-Francisco. "Sektion Hessen." KN - Journal of Cartography and Geographic Information 67, no. 6 (November 2017): 358–59. http://dx.doi.org/10.1007/bf03544518.

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17

Xiao, Hai Bing, and Xiao Peng Xie. "Simulation Research of Feature Extraction Method Based on Nonlinear Manifold Learning." Applied Mechanics and Materials 533 (February 2014): 247–51. http://dx.doi.org/10.4028/www.scientific.net/amm.533.247.

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This paper deals with the study of Locally Linear Embedding (LLE) and Hessian LLE nonlinear feature extraction for high dimensional data dimension reduction. LLE and Hessian LLE algorithm which reveals the characteristics of nonlinear manifold learning were analyzed. LLE and Hessian LLE algorithm simulation research was studied through different kinds of sample for dimensionality reduction. LLE and Hessian LLE algorithm’s classification performance was compared in accordance with MDS. The simulation experimental results show that LLE and Hessian LLE are very effective feature extraction method for nonlinear manifold learning.
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18

Mihai, Adela, and Ion Mihai. "The δ(2,2)-Invariant on Statistical Submanifolds in Hessian Manifolds of Constant Hessian Curvature." Entropy 22, no. 2 (January 31, 2020): 164. http://dx.doi.org/10.3390/e22020164.

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We establish Chen inequality for the invariant δ ( 2 , 2 ) on statistical submanifolds in Hessian manifolds of constant Hessian curvature. Recently, in co-operation with Chen, we proved a Chen first inequality for such submanifolds. The present authors previously initiated the investigation of statistical submanifolds in Hessian manifolds of constant Hessian curvature; this paper represents a development in this topic.
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19

Furuhata, Hitoshi, and Takashi Kurose. "Hessian manifolds of nonpositive constant Hessian sectional curvature." Tohoku Mathematical Journal 65, no. 1 (2013): 31–42. http://dx.doi.org/10.2748/tmj/1365452623.

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20

Jerling, H. L., and T. H. Wooldridge. "The developmental stages ofPseudodiaptomus hessei(Copepoda: Calanoida)." South African Journal of Zoology 24, no. 2 (January 1989): 139–45. http://dx.doi.org/10.1080/02541858.1989.11448145.

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21

Martínez-Ojeda, Emigdio, and Adriana Ortiz-Rodríguez. "On the Complex and Real Hessian Polynomials." International Journal of Mathematics and Mathematical Sciences 2010 (2010): 1–22. http://dx.doi.org/10.1155/2010/962719.

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We study some realization problems related to the Hessian polynomials. In particular, we solve the Hessian curve realization problem for degrees zero, one, two, and three and the Hessian polynomial realization problem for degrees zero, one, and two.
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22

Vorberger, Lars. "Medienhessisch." Linguistik Online 99, no. 6 (November 11, 2019): 97–123. http://dx.doi.org/10.13092/lo.99.5967.

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The Hessian language area is characterized by the opposition of an object-linguistic heterogeneity and a perceived homogeneity. The perception and conceptualization of “Hessian” is highly connected to the medial distribution of “Hessian”. This Mediahessian hasn’t been investigated profoundly. Thus, this paper – based on an outline of the Hessian language area and the media usage of regional language – analyzes: (a) the knowledge about Mediahessian based on a survey, (b) the concept of “Hessian”, which is provided by popular scientific publications, (c) the constitutive and optional features of (TV)-Mediahessian and (d) its functions. The paper ends with a summary of the results and a definition of Mediahessian.
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23

Ma, Yong, and Dave Hale. "Quasi-Newton full-waveform inversion with a projected Hessian matrix." GEOPHYSICS 77, no. 5 (September 1, 2012): R207—R216. http://dx.doi.org/10.1190/geo2011-0519.1.

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We present a method, in realistic-size full-waveform inversion (FWI), to explicitly construct a projected Hessian matrix and its inverse matrix, which we subsequently used to solve FWI with a quasi-Newton method. Newton’s method is practically unfeasible in solving realistic-size FWI problems because of the prohibitive cost (computing time and memory consumption) of calculating the Hessian matrix and the inverse Hessian. Therefore, the Gauss-Newton method and various quasi-Newton methods are proposed to approximate a Hessian matrix. Particularly, current quasi-Newton FWI (QNFWI) commonly uses the limited-memory BFGS (L-BFGS) method, which, however, only implicitly approximates an inverse Hessian. We repose FWI as a sparse optimization problem in a sparse model space, which contains substantially fewer model parameters that are constrained by structures of the model. With respect to fewer parameters in the sparse model, we can avoid the “limited-memory” approximation and are able to explicitly compute and store a projected Hessian matrix that saves the computational time and required memory. We constructed such a projected Hessian matrix by adapting the classic BFGS method to a projected BFGS (P-BFGS) method in the sparse space. Using the projected Hessian matrix and its inverse, we can apply the P-BFGS method to solve FWI with a quasi-Newton method. In QNFWI with P-BFGS because we invert for a sparse model with much fewer parameters, the memory required to compute the projected Hessian is negligible compared to either forward modeling or gradient calculation. QNFWI with P-BFGS converges in fewer iterations than conjugate-gradient based methods and QNFWI with L-BFGS.
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24

McGonagle, Matt, Chong Song, and Yu Yuan. "Hessian estimates for convex solutions to quadratic Hessian equation." Annales de l'Institut Henri Poincaré C, Analyse non linéaire 36, no. 2 (March 2019): 451–54. http://dx.doi.org/10.1016/j.anihpc.2018.07.001.

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25

Ito, Shin-ichi, Takeru Matsuda, and Yuto Miyatake. "Adjoint-based exact Hessian computation." BIT Numerical Mathematics 61, no. 2 (February 17, 2021): 503–22. http://dx.doi.org/10.1007/s10543-020-00833-0.

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AbstractWe consider a scalar function depending on a numerical solution of an initial value problem, and its second-derivative (Hessian) matrix for the initial value. The need to extract the information of the Hessian or to solve a linear system having the Hessian as a coefficient matrix arises in many research fields such as optimization, Bayesian estimation, and uncertainty quantification. From the perspective of memory efficiency, these tasks often employ a Krylov subspace method that does not need to hold the Hessian matrix explicitly and only requires computing the multiplication of the Hessian and a given vector. One of the ways to obtain an approximation of such Hessian-vector multiplication is to integrate the so-called second-order adjoint system numerically. However, the error in the approximation could be significant even if the numerical integration to the second-order adjoint system is sufficiently accurate. This paper presents a novel algorithm that computes the intended Hessian-vector multiplication exactly and efficiently. For this aim, we give a new concise derivation of the second-order adjoint system and show that the intended multiplication can be computed exactly by applying a particular numerical method to the second-order adjoint system. In the discussion, symplectic partitioned Runge–Kutta methods play an essential role.
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26

Schulte, S. J., S. D. Rider, Jr., J. H. Hatchett, and J. J. Stuart. "Molecular genetic mapping of three X-linked avirulence genes, vH6, vH9 andvH13, in the Hessian fly." Genome 42, no. 5 (October 1, 1999): 821–28. http://dx.doi.org/10.1139/g98-162.

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Three X-linked avirulence genes, vH6, vH9, and vH13 in the Hessian fly, Mayetiola destructor, confer avirulence to Hessian fly resistance genes H6, H9, and H13 in wheat. We used a combination of two- and three-point crosses to determine the order of these genes with respect to each other, the white eye mutation and three X-linked molecular markers, G15-1, 020, and 021, developed from genomic lambda clones, λG15-1, λ020, and λ021. The gene order was determined to be vH9-vH6-G15-1-w-vH13-020-021. In situ hybridization of λG15-1, λ020, and λ021, on the polytene chromosomes of the Hessian fly salivary gland established their orientation on Hessian fly chromosome X1. Based on the size of the Hessian fly genome, and the genetic distances between markers, the relationship of physical to genetic distance was estimated at no more than 300 kb/cM along Hessian fly chromosome X1, suggesting that map-based cloning of these avirulence genes will be feasible.Key words: Mayetiola destructor, avirulence genes, genetic map, SSCP, in situ hybridization.
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27

Buntin, G. D., B. M. Cunfer, and D. C. Bridges. "Impact of Volunteer Wheat on Wheat Insects in a Wheat-Soybean Double-crop System." Journal of Entomological Science 26, no. 4 (October 1, 1991): 401–7. http://dx.doi.org/10.18474/0749-8004-26.4.401.

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The impact of the presence of noncompetitive levels of volunteer wheat, Triticum aestivum L. em Thell, in a summer crop on insect infestations in a subsequent crop of winter wheat was examined in a wheat-soybean, Glycine max (L.) Merrill, double-crop system in Georgia. The only insect collected from volunteer plants in large numbers was the Hessian fly, Mayetiola destructor (Say), although small numbers of thrips and aphids also were collected. Hessian fly immatures were not detected in volunteer plants before mid-August and were not prevalent until September. Hessian fly infestations were greater in volunteer plants that were present throughout the summer than in plants which were present only after mid-August. The presence of volunteer wheat in the soybean crop had little effect on Hessian fly infestations in the following crop of winter wheat. Tillage probably disrupted Hessian fly activity and prevented the carryover of insects from volunteer plants to the subsequent wheat crop. Delaying planting of winter wheat by about one month greatly reduced fall infestations on the Hessian fly regardless of the occurrence of volunteer wheat in the previous summer crop.
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28

Bel Mokhtar, Naima, Amal Maurady, Mohammed Reda Britel, Mustapha El Bouhssini, Costas Batargias, Panagiota Stathopoulou, Elias Asimakis, and George Tsiamis. "Detection of Wolbachia Infections in Natural and Laboratory Populations of the Moroccan Hessian Fly, Mayetiola destructor (Say)." Insects 11, no. 6 (June 2, 2020): 340. http://dx.doi.org/10.3390/insects11060340.

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Mayetiola destructor (Hessian fly) is a destructive pest of wheat in several parts of the world. Here, we investigated the presence of reproductive symbionts and the effect of the geographical location on the bacterial community associated to adult Hessian flies derived from four major wheat producing areas in Morocco. Using specific 16S rDNA PCR assay, Wolbachia infection was observed in 3% of the natural populations and 10% of the laboratory population. High throughput sequencing of V3-V4 region of the bacterial 16S rRNA gene revealed that the microbiota of adult Hessian flies was significantly influenced by their native regions. A total of 6 phyla, 10 classes and 79 genera were obtained from all the samples. Confirming the screening results, Wolbachia was identified as well in the natural Hessian flies. Phylogenetic analysis using the sequences obtained in this study indicated that there is one Wolbachia strain belonging to supergroup A. To our knowledge, this is the first report of Wolbachia in Hessian fly populations. The observed low abundance of Wolbachia most likely does not indicate induction of reproductive incompatibility. Yet, this infection may give a new insight into the use of Wolbachia for the fight against Hessian fly populations.
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29

García Ariza, M. Á. "Degenerate Hessian structures on radiant manifolds." International Journal of Geometric Methods in Modern Physics 15, no. 06 (May 8, 2018): 1850087. http://dx.doi.org/10.1142/s0219887818500871.

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We present a rigorous mathematical treatment of Ruppeiner geometry, by considering degenerate Hessian metrics defined on radiant manifolds. A manifold [Formula: see text] is said to be radiant if it is endowed with a symmetric, flat connection and a global vector field [Formula: see text] whose covariant derivative is the identity mapping. A degenerate Hessian metric on [Formula: see text] is a degenerate metric tensor that can locally be written as the covariant Hessian of a function, called potential. A function on [Formula: see text] is said to be extensive if its Lie derivative with respect to [Formula: see text] is the function itself. We show that the Hessian metrics appearing in equilibrium thermodynamics are necessarily degenerate, owing to the fact that their potentials are extensive (up to an additive constant). Manifolds having degenerate Hessian metrics always contain embedded Hessian submanifolds, which generalize the manifolds defined by constant volume in which Ruppeiner geometry is usually studied. By means of examples, we illustrate that linking scalar curvature to microscopic interactions within a thermodynamic system is inaccurate under this approach. In contrast, thermodynamic critical points seem to arise as geometric singularities.
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30

Sharma, H. C., H. W. Ohm, F. L. Patterson, O. Benlhabib, and S. Cambron. "Genetics of resistance to Hessian fly (Mayetiola destructor) [Diptera : Cecidomyiida] biotype L in diploid wheat." Phytoprotection 78, no. 2 (April 12, 2005): 61–65. http://dx.doi.org/10.7202/706120ar.

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Hessian fly (Mayetiola destructor) is a serious pest of wheat (Triticum spp.) and of the reported biotypes of Hessian fly, biotype L is described as the most virulent. Inheritance of resistance to Hessian fly biotype L was investigated in crosses of a resistant accession of Triticum monococcum, and two susceptible accessions of T. monococcum and one susceptible accession of T. boeoticum, all diploid wheats. F2 and testeross (backeross) families were classified for reaction to Hessian fly in the seedling stage and analysed by Chi-square goodness-of-fit tests for genetic segregation ratios of resistant or segregating families to susceptible families. Resistance was found to be simply inherited, controlled by one or two genes. This is the first report on the inheritance of resistance to Hessian fly in A-genome diploid wheats, and simple genetic control indicates possibility of transfer of this trait to cultivated wheats.
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31

Goux, Jean-Joseph. "L'oubli de Hestia." Langages 21, no. 85 (1987): 55–61. http://dx.doi.org/10.3406/lgge.1987.1529.

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32

Glück-Arndt, Monika. "Behindertenpädagogik in Hessen." Behindertenpädagogik 59, no. 1 (March 2020): 73–74. http://dx.doi.org/10.30820/0341-7301-2020-1-73.

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33

Glück-Arndt, Monika, Katharina Schmideder, and Kathrin Müller. "Behindertenpädagogik in Hessen." Behindertenpädagogik 59, no. 3 (September 2020): 310–11. http://dx.doi.org/10.30820/0341-7301-2020-3-310.

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34

Glück-Arndt, Monika. "Behindertenpädagogik in Hessen." Behindertenpädagogik 59, no. 4 (November 2020): 426. http://dx.doi.org/10.30820/0341-7301-2020-4-426.

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35

Bär, Werner-Francisco. "DGfK-Sektion Hessen." KN - Journal of Cartography and Geographic Information 68, no. 6 (November 2018): 325–26. http://dx.doi.org/10.1007/bf03544638.

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36

Bär, Werner-Francisco. "DGfK-Sektion Hessen." KN - Journal of Cartography and Geographic Information 65, no. 1 (January 2015): 54–55. http://dx.doi.org/10.1007/bf03545519.

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37

Best, Marko. "Behindertenpädagogik in Hessen." Behindertenpädagogik 59, no. 2 (June 2020): 201–2. http://dx.doi.org/10.30820/0341-7301-2020-2-201.

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38

Trudinger, Neil S., and Xu-Jia Wang. "Hessian measures I." Topological Methods in Nonlinear Analysis 10, no. 2 (December 1, 1997): 225. http://dx.doi.org/10.12775/tmna.1997.030.

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39

Zheng, Miao, Jiajun Bu, and Chun Chen. "Hessian sparse coding." Neurocomputing 123 (January 2014): 247–54. http://dx.doi.org/10.1016/j.neucom.2013.08.001.

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40

Litman, Jessica R., Connal D. Eardley, and Michael Kuhlmann. "A new species of Fidelia Friese, 1899 (Hymenoptera, Megachilidae), with a key to the species of the genus." European Journal of Taxonomy, no. 174 (February 10, 2016). http://dx.doi.org/10.5852/ejt.2016.174.

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A new species of Fidelia Friese, 1899 is described from southern Africa: Fidelia (Fideliopsis) whiteheadi Litman & Kuhlmann sp. nov. Diagnostic characters are provided to distinguish this species from others in the genus, particularly from the closely related F. hessei; an updated description for Fidelia hessei is also given. The host plant preferences and seasonal activity of F. whiteheadi Litman & Kuhlmann sp. nov. and F. hessei are discussed. Finally, a revised, illustrated key to species of the genus Fidelia is presented.
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41

Mermet, Anna. "Hessie : Survival Art 1969-2015." Critique d’art, May 20, 2017. http://dx.doi.org/10.4000/critiquedart.21440.

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42

"LG HESSEN." VPT Magazin 02, no. 10 (November 17, 2016): 32. http://dx.doi.org/10.1055/s-0036-1597104.

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43

"Landesverband Hessen." djbZ 23, no. 2 (2020): 62–63. http://dx.doi.org/10.5771/1866-377x-2020-2-62.

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44

"LG HESSEN." VPT Magazin 05, no. 06 (July 2019): 33–34. http://dx.doi.org/10.1055/s-0039-1693938.

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45

"LG HESSEN." VPT Magazin 05, no. 05 (June 2019): 32–33. http://dx.doi.org/10.1055/s-0039-1692354.

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46

"LG HESSEN." VPT Magazin 01, no. 01 (July 20, 2015): 27. http://dx.doi.org/10.1055/s-0035-1558948.

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47

"LG HESSEN." VPT Magazin 05, no. 04 (April 30, 2019): 31–33. http://dx.doi.org/10.1055/s-0039-1688668.

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48

"LG HESSEN." VPT Magazin 02, no. 04 (April 4, 2016): 26–27. http://dx.doi.org/10.1055/s-0036-1582280.

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49

"LG HESSEN." VPT Magazin 01, no. 02 (September 2, 2015): 28–29. http://dx.doi.org/10.1055/s-0035-1564319.

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50

"LG HESSEN." VPT Magazin 04, no. 01 (December 22, 2017): 30–31. http://dx.doi.org/10.1055/s-0037-1618877.

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