If you die first, I'll follow you. Hélène, I am your death.

The Living Dead Girl | La Morte Vivante (1982) dir. Jean Rollin

The Glam Culture

Bulgari

Carlo Mazzoni

Electa, Milano 2013, 144 pagine,  29.5 x 38.5 cm, Paperback, ISBN  978-8837096656

euro 49,00

email if you want to buy [email protected]

Una leggendaria collana di smeraldi di Bulgari è il fil rouge di questa storia del glam, una storia che brilla letteralmente in ogni pagina del volume. Indossando questo gioiello - forse uno dei più celebri del Novecento, leggendario quanto la corona del Re Sole e la collana di Maria Antonietta Elizabeth Taylor ha inventato il mondo del glam. Gioielli di sogno per star che alimentano i sogni. E nel volume ci sono proprio tutti: Alain Delon, Romy Schneider, Marilyn Monroe, Grace Kelly, Nicole Kidman, Jude Law, Catherine Deneuve, Keira Knightley e poi il jet-set di Guy e Maire-Hélène de Rothschild, Bianca Jagger, Andy Warhol, Liza Minnelli, Truman Capote, Diana Vreeland, Yves Saint Laurent, Paloma Picasso, Tom Ford, i duchi di Windsor, Maria Callas, Carla Bruni, Coco Chanel e Jackie Kennedy: un'infinita costellazione di stelle, ritratte in foto spettacolari e rari scatti rubati agli infiniti parties che la Glam Culture impone.

30/01/23

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Here's a tribute to June 10th 2012 birthday and rest in peace Angels Sophie Hélène Béatrix de France, Marie-Thérèse Charlotte de France,Élisabeth Louise Vigée Le Brun,Marie Antoinette with a Rose,Marie Antoinette,Louis XVI,Marie-Thérèse Charlotte,Louis Antoine of France, Duke of AngoulêmeLouis Joseph Xavier François,Louis XVII,Louis XVIII,Charles X,Maria Theresa of Savoy,Sophie d'Artois,Louis, Dauphin of France, Aubreigh Paige Wyatt, Ava Jordan Wood, Leiliana Wright, Star Hobson, Saffie-Rose Brenda Roussos, Lily Peters, Olivia Pratt Korbel, Elizabeth Shelley, Sara Sharif, Charlotte Figi, Jersey Dianne Bridgeman, Macie Hill, Sloan Mattingly, Audrii Cunningham, Athena Strand, Athena Brownfield, Leocadia Zorrilla, Francisco José de Goya y Lucientes, Josefa Bayeu, Francisco Javier Goya Bayeu,Charlotte Eckerman, Adolf Ulrik Wertmüller, La Belle Italienne, Mary Wollstonecraft Shelley, Anne Isabella Noel Byron, Elizabeth Cavendish, Duchess of Devonshire, Lady Elizabeth Finch-Hatton, Queen Elizabeth II, Barbara Shelley, Percy Shelley, Lady Elizabeth Pilfold Shelley, Anne Neville, John Winthrop, Mary Forth Winthrop, Margaret Tyndall Winthrop, Thomasine Winthrop, Elisabeth of Denmark, Anna von Brandenburg, Elisabeth von Brandenburg, Sir John Talbot, Elizabeth Wrottesley Talbot, Richard III, Edward of Middleham, Margaret Plantagenet, Anne Plantagenet Saint Leger, Elizabeth of York Plantagenet de la Pole Duchess of Suffolk, Edmund Plantagenet, Richard of York 3rd Duke of York, Lady Cecily de Neville Plantagenet, Katharine of Aragon, Henry Tudor, Elizabeth I, Isabella de Aragon, Juan de Aragón, Miguel da Paz, Prince of Asturias, Jacklyn Jaylen “Jackie” Cazares, Chief Thunder Cloud, Chief Yellow Thunder, Ernest White Thunder, Wa-Kin-Yan-Waste “Andrew” Good Thunder, Maggie Snana Brass, Catherine Violet Hubbard,

Sunset Boulevard, Claire Guillaumet, peinture à l’huile, 40 x 33 cm.

Exposition de groupe « NOIR + BLANC » du 16 avril au 5 mai 2024 à Auxerre.

Œuvres de Marie-Claude Beck, Xavier Bernard, Marie Desforge, Isabelle Duarte, François Fildier, Lucie Fourchotte, Claire Guillaumet, Jacqueline Lafond, Philippe Lafond, Eric Letellier, Patrick Loret, Hélène Perret, Catherine Ponnelle, Piers Rawson, Christian Rondet et Eric Schenker.

Vernissage vendredi 19 avril 2024 à partir de 17 h 30.

Espace Mouv’art, 2 rue de l'Yonne, 89000 Auxerre. Ouvert tous les jours, sauf lundi de 14 h 30 à 18 h 30.

Plus d’informations sur le site de Mouv’art en Bourgogne.

Stéphane Mroczkowski, Alexandra Pignol (dir.), David Diao. Peinture et document/painting and document

Paris, Mare & Martin, mars 2021 format 15 x 21 cm, 273 pages, 13 textes, 56 illustrations

Résumé Figure majeure de l’abstraction conceptuelle, David Diao questionne les usages et les institutions du monde de l’art. Les documents d’archive, photographies, listes, chiffres de ventes, biographies, carrières d’artistes — dont la sienne — bouleversent l’approche que l’on a de la peinture. Reproduits sur un fond monochrome très élaboré, les documents ont une valeur informative tout comme une valeur esthétique. Diao donne à la peinture une dimension conceptuelle effective : focalisée sur l’information et le contenu. Et s’il donne un rôle central à l’information, il affirme aussi la présence irréductible de la peinture, qui rend le rôle des documents plus complexe à définir, comme le montrent les essais du présent ouvrage.

Avec les textes de Hélène Chouteau-Matikian, Michael Corris, Felix Gmelin, Catherine Grout, James Harithas, Jean-Marc Huitorel, Marjolaine Lévy, Joseph Masheck, Stéphane Mroczkowski & Alexandra Pignol, Marshall N. Price, Ramon Tio-Bellido, Hiram To, Marjorie Welish

Martinus Veltman, Who Made Key Contribution in Physics, Dies at 89

Martinus J.G. Veltman, a Dutch theoretical physicist who was awarded the Nobel Prize for work that explained the structure of some of the fundamental forces in the universe, helping to lay the groundwork for the development of the Standard Model, the backbone of quantum physics, died on Jan. 4 in Bilthoven, the Netherlands. He was 89.

His death was announced by the National Institute for Subatomic Physics in the Netherlands. No cause was given.

There are four known fundamental forces in the universe: gravity, electromagnetism, the strong force that bonds subatomic particles together, and the weak force that is responsible for particle decay. Since the discovery of the last two forces in the first half of the 20th century, physicists have looked for a unified theory that could account for the existence of all four.

In the early 1960s, Dr. Sheldon Lee Glashow, Dr. Steven Weinberg and Dr. Abdus Salam developed what they called the electroweak theory, which found a unity between electromagnetism and the weak force. But the complex math behind the theory ran into problems because it sometimes produced infinite answers, like for the energy of a particle. That was obviously impossible and therefore meaningless.

The calculations were also complex because they were based on “non-Abelian gauge theory,” in which a change in the sequence of operations performed on an equation, to change its form, also changes its result. (So, unlike in high school mathematics, in which a x b equals b x a, in non-Abelian gauge theory a x b sometimes does not equal b x a.)

Working with a graduate student of his, Gerardus ’t Hooft, Dr. Veltman set out to solve the problem. They used a technique called renormalization, which allowed them to substitute experimental results for the calculations that produced infinite answers.

To perform the calculations, Dr. Veltman and Dr. ’t Hooft used a computer program that Dr. Veltman had written called Schoonschip, which is Dutch for “to clean or clear things up.” Dr. Veltman would later joke that he chose the name partly to annoy people who could not speak Dutch.

Dr. Veltman in 1999, after sharing the Nobel Prize in Physics with his former student Gerardus ’t Hooft.Credit…Janerik Henriksson/Reuters

Dr. Veltman and Dr. ’t Hooft were successful in solving the problems with the electroweak theory, establishing that electromagnetism and the weak force are, in fact, manifestations of the same force at high energy levels. Their work supported the prediction that two previously unknown fundamental particles, the W and Z bosons, would be found, helping to fill out missing elements of the Standard Model.

Dr. Glashow, Dr. Weinberg and Dr. Salam were awarded the Nobel Prize in 1979 for developing the electroweak theory, and Dr. Veltman and Dr. ’t Hooft shared the prize in 1999 for their contribution.

Dr. Glashow said that Dr. Veltman and Dr. ’t Hooft’s work was invaluable. “Without the calculational system they developed, no one would have taken the electroweak theory seriously,” he said.

Martinus Justinus Godefriedus Veltman was born on June 27, 1931, in Waalwijk, Netherlands. He was the fourth of six children. His father was the head of a primary school; one of Martinus’s brothers and two of his sisters became primary-school teachers.

Occupying German troops in 1940 took over the father’s school. Though the town was liberated in 1944, the north of the Netherlands continued to be occupied, and Waalwijk was located close to the front line. In his Nobel biography, Dr. Martinus recalled that V-1 bombs fell on the town, with one landing on a house only 100 yards from his own, killing its inhabitants.

Dr. Veltman was a so-so student, barely passing his final high school exam, but a high school teacher thought that he showed promise and urged his parents to send him to a university. He attended the University of Utrecht, commuting 90 minutes each way.

Dr. Veltman found the education at Utrecht, which had lost many of its best professors during the war, uninspiring. He had to work on the side to pay his way through college, and it took him five years to finish his degree, two more than the usual undergraduate career. But then he stumbled on a book about Einstein’s theory of relativity and became fascinated by physics. He decided to pursue a Ph.D. at Utrecht.

About that time the Belgian physicist Léon Van Hove arrived at the university and became Dr. Veltman’s adviser. After a two-year military stint, Dr. Veltman completed his doctorate.

Dr. Van Hove left Utrecht in 1960 to become director of the theory division at CERN, the European Organization for Nuclear Research, in Geneva. Dr. Veltman followed him a year later.

Dr. Veltman spent a year at the SLAC National Accelerator Laboratory at Stanford University in 1963 before returning to CERN. He worked at the Brookhaven National Laboratory on Long Island in 1966 and was then hired by his alma mater, filling the post at Utrecht that Dr. Van Hove had occupied.

In 1979, Dr. Veltman received an invitation to teach for a year at the University of Michigan, Ann Arbor. At the end of the appointment, he was hired to fill the John T. and Catherine T. MacArthur chair at the university. He stayed until his retirement in 1996, when he and his wife returned to the Netherlands.

In 2003, he published a book about physics for the lay person called “Facts and Mysteries in Elementary Particle Physics.”

He is survived by his wife, Anneke, and their three children, Hélène, Hugo and Martijn.

Dr. Veltman had an easygoing approach to physics. His Nobel lecture proceeded through the elements and history of particle physics using simple words and humor. Indeed, his humor was often sly. During a question-and-answer session after a lecture at the Lindau Nobel Laureate Meetings in 2019, he was asked what made him like a theory.

“The answer is trivial,” he said. “It has to work.”

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Martinus Veltman, Who Made Key Contribution in Physics, Dies at 89 Martinus J.G. Veltman, a Dutch theoretical physicist who was awarded the Nobel Prize for work that defined the construction of among the basic forces within the universe, serving to to put the groundwork for the event of the Normal Mannequin, the spine of quantum physics, died on Jan. 4 in Bilthoven, the Netherlands. He was 89. His demise was introduced by the Nationwide Institute for Subatomic Physics within the Netherlands. No trigger was given. There are 4 recognized basic forces within the universe: gravity, electromagnetism, the sturdy pressure that bonds subatomic particles collectively, and the weak pressure that’s accountable for particle decay. Because the discovery of the final two forces within the first half of the twentieth century, physicists have seemed for a unified concept that would account for the existence of all 4. Within the early Nineteen Sixties, Dr. Sheldon Lee Glashow, Dr. Steven Weinberg and Dr. Abdus Salam developed a concept, referred to as the electroweak concept, that discovered a unity between electromagnetism and the weak pressure. However the advanced math behind the speculation bumped into issues as a result of it generally produced infinite solutions, reminiscent of for the vitality of a particle. That was clearly not possible and subsequently meaningless. The calculations have been additionally advanced as a result of they have been primarily based on “non-Abelian gauge concept” through which a change within the sequence of operations carried out on an equation to alter its type additionally adjustments its end result. (So, not like in highschool arithmetic, through which a x b equals b x a, in non-Abelian gauge concept, generally a x b doesn’t equal b x a. Working with a graduate scholar of his, Gerardus ’t Hooft, Dr. Veltman got down to resolve the issue. They used a method referred to as renormalization, which allowed them to substitute experimental outcomes for the calculations that resulted in infinity. To carry out the calculations, Dr. Veltman and Dr. ‘t Hooft used a pc program that Dr. Veltman had written referred to as Schoonschip, which is Dutch for “to wash or clear issues up.” Dr. Veltman would later joke that he selected the identify partly to bother individuals who couldn’t communicate Dutch. Dr. Veltman in 1999, after profitable the Nobel Prize in physics along with his former scholar, Gerardus ’t Hooft.Credit score…Janerik Henriksson/Reuters Dr. Veltman and Dr. ’t Hooft have been profitable at fixing the theoretical issues with the electro-weak concept, firmly establishing that the forces are, in actual fact, a manifestation of the identical pressure at excessive vitality ranges. Their work supported the prediction that two beforehand unknown basic particles, the W and Z bosons, could be discovered, serving to to fill out lacking components of the Normal Mannequin. Dr. Glashow, Dr. Weinberg and Dr. Salam have been awarded the Nobel Prize in 1979 for creating the electro-weak concept and Dr. Veltman and Dr. ’t Hooft shared the prize in 1999 for his or her contribution. Dr. Glashow stated that Dr. Veltman’s and Dr. ’t Hooft’s work was invaluable. “With out the calculational system they developed, nobody would have taken the electro-weak concept significantly,” he stated. Martinus Justinus Godefriedus Veltman was born on June 27, 1931, in Waalwijk, Netherlands. He was the fourth of six youngsters. His father was the top of a major faculty; one in all Martinus’s brothers and two of his sisters grew to become major schoolteachers. Waalwijk was occupied by the Germans in 1940 and troops took over Martinus’s father’s faculty. Although the city was liberated in 1944, the north of the Netherlands continued to be occupied, and Waalwijk was situated near the entrance line. In his Nobel biography, Dr. Martinus recalled that V-1 bombs fell in town, with one touchdown on a home solely 100 yards from his personal, killing its inhabitants. Dr. Veltman was a so-so scholar, barely passing his closing highschool examination, however a highschool trainer thought that he confirmed promise and urged his dad and mom to ship him to a college. He attended the College of Utrecht, commuting 90 minutes every manner. Dr. Veltman discovered the training on the college, which had misplaced a lot of its greatest professors in the course of the conflict, uninspiring. He was additionally poor and labored on the aspect to boost sufficient cash to make it via faculty. It took him 5 years to complete his diploma, two greater than typical. However then he found a e book about Einstein’s concept of relativity and have become fascinated by physics. He determined to pursue a Ph.D. at Utrecht. At across the identical time, the Belgian physicist Léon Van Hove arrived on the college and have become Dr. Veltman’s adviser. After a two-year army stint, Dr. Veltman accomplished his doctorate. Dr. Van Hove left Utrecht in 1960 to change into director of the speculation division at CERN, the European Group for Nuclear Analysis, in Geneva. Dr. Veltman adopted him a 12 months later. Dr. Veltman spent a 12 months on the SLAC Nationwide Accelerator Laboratory at Stanford College in 1963 earlier than returning to CERN. He labored on the Brookhaven Nationwide Laboratory in New York in 1966 and was then employed by his alma mater, filling the publish on the College of Utrecht that Dr. Van Hove had occupied. In 1979, he acquired an invite to show for a 12 months on the College of Michigan, Ann Arbor. On the finish of the appointment, he was employed to fill the John T. and Catherine T. MacArthur chair on the college. He stayed till his retirement in 1996, when he and his spouse returned to the Netherlands. In 2003, he printed a e book about physics for the lay particular person referred to as “Info and Mysteries in Elementary Particle Physics.” He’s survived by his spouse, Anneke, and their three youngsters, Hélène, Hugo and Martijn. Dr. Veltman had an easygoing method to physics. His Nobel lecture stepped via the weather and historical past of particle physics utilizing easy phrases and humor. Certainly, his humor was typically sly. Throughout a question-and-answer session after a lecture on the Lindau Nobel Laureate Conferences in 2019, he was requested what made him like a concept. “The reply is trivial,” he stated. “It has to work.” Supply hyperlink #Contribution #Dies #Key #Martinus #physics #Veltman

la morte vivante (1982)