Category: Student researchers

Culture, Society & Family Student researchers

Chimú pottery: Peru’s conquering Inca left mark

Post author By Margaret Allen
Post date March 6, 2009

Amanda Aland, an SMU archaeology graduate student in Dedman College, and a team of students working under her direction in Peru, in 2008 unearthed evidence that the Incas left their mark after conquering the Chimú empire in the 15th century.

Now Aland has received a prestigious Fulbright U.S. Student fellowship to conduct further archaeological fieldwork and research in Peru.

amanda-aland-sm.ashx.jpeg

In March 2009, Aland will return to a site on Peru’s northern coast, called Santa Rita B, where she spent several months last year excavating with the support of a National Science Foundation grant.

Slideshow: Aland’s Peru field work

“We found Chimú pottery and architecture that show Inca influences,” she says, in addition to centuries-old animal matter and human remains.

During her 10-month Fulbright fellowship, Aland hopes to learn the extent of the Incas’ influence on the Chimú people through further excavation and laboratory analysis of her findings.

“We want to piece together how the two empires interacted,” she says. “Did they go to war, or make peace living under new rules? We always can learn from the past.”

Aland, a Dallas native, earned a Bachelor’s degree in Spanish from the University of Southern California in 2004. At SMU, where she earned a Master’s degree in anthropology in 2006, she has studied archaeological theory, methods and grant writing while directing summer field research in Peru.

“Amanda is developing important new perspectives on the expansion of the Inca empire,” says Alan Covey, assistant professor of anthropology and Aland’s dissertation adviser. “Peru’s north coast was an important provincial region, but one that is still not well understood by archaeologists. Her research stands to make a valuable contribution.”

Aland is one of 1,450 U.S. citizens selected to study abroad this year through the U.S. State Department’s Fulbright U.S. Student Program, and one of 40 SMU students who have been awarded the fellowship in the last 35 years. — Sarah Hanan

Tags Alan Covey, Amanda Aland, Dedman College, SMU Department of Anthropology

Culture, Society & Family Fossils & Ruins Researcher news Student researchers

Etruscan dig’s common objects are unprecedented finds

Post author By Margaret Allen
Post date January 22, 2009

SMU’s Meadows Museum honors the 15th anniversary of University Distinguished Professor of Art History P. Gregory Warden‘s groundbreaking archaeological excavation in Poggio Colla, Italy with an exhibition dedicated to the Etruscans.

“From the Temple and the Tomb: Etruscan Treasures From Tuscany” is the most comprehensive exhibition of Etruscan art ever undertaken in the United States, with more than 400 objects spanning the 9th through 2nd centuries B.C.

P. Gregory Warden at Poggio Collo

“New Light on the Etruscans: Fifteen Years of Excavation at Poggio Colla” will offer a look into the rare and dramatic finds from this important Etruscan site.

The exhibit includes almost 100 objects from its sanctuary and from a habitation and center of ceramic production discovered in a field below its acropolis.

The excavation site spans more than 50 acres. It is the most extensive Etruscan settlement ever discovered and revealed a wealth of details about ordinary life of Etruscans, the ancestors of Rome.

Poggio Colla Field School trains students on an Etruscan site about 22 miles northeast of Florence in the scenic Mugello Valley.

The settlement on Poggio Colla spanned most of Etruscan history, from the seventh century until its destruction by the Romans at the beginning of the second century.

Students open new trenches the first week of 2008 field season.

The first 11 seasons of excavation have revealed at least three major construction phases, including an extraordinarily rich Orientalizing-Archaic phase that includes the remains of a monumental structure on the acropolis, and two later phases when the site was turned into a fortified stronghold.

Discoveries include 2,000-year-old pendant necklaces, gold hair ornaments, rings and semi-precious stones, and silver coins. The discoveries bring to life a largely forgotten people who, among other things, built the first cities in Italy and introduced Greek culture to the Romans.

Warden, co-director of the Mugello Valley Archaeological Project, says the gold discovery was significant because the riches were not buried in tombs.

“The discovery of these gold objects in this ordinary setting is unprecedented in Etruscan archaeology,” he says.

Student/staff member Rachel Julis
uncovering gold.

Etruscan civilization thrived for hundreds of years during the first millennium B.C., before assimilation by the Romans. Little is known of them because researchers have found only scattered ruins.

The gold found at the top of a hill overlooking the Poggio Colla settlement probably was used for religious ceremonies. Like many ancient cultures, the Etruscans were obsessed with symbols and rituals, and evidence says they used such rites and totems to maintain their rigid caste structure, which existed of a tiny elite, a huge slave population and a small serf class. The items found at Poggio Colla, meticulously placed and capped with temple stones, most likely were chosen to persuade — or appease — the gods.

Both exhibitions will run from January 25 to May 17. An opening reception for SMU faculty and staff is scheduled February 5 from 4:30 p.m.-6 p.m.

The shows join the Dallas Museum of Art’s blockbuster King Tut exhibit “Tutankhamun and the Golden Age of the Pharaohs” as part of a citywide celebration of ancient civilizations of the Mediterranean.

Gold pendants

Featured in “From the Temple and the Tomb” are an entire temple pediment — the terracotta decoration for the front of an Etruscan temple.

It will also include objects from Etruscan tombs, including sarcophagi, ash urns, guardian figures, and gold, silver, bronze, ivory and ceramic objects that were deposited in the tombs of the wealthy.

Also featured are several pieces of gold jewelry, created using techniques so advanced that they are difficult to reproduce today.

“From the Temple and the Tomb” is organized by the Meadows Museum in association with the Florence Archaeological Museum, Italy, the Italian Ministry of Culture, the Soprintendenza of Archaeology for Tuscany, and Centro Promozioni e Servizidi Arezzo. It was funded by a gift from The Meadows Foundation.

Tags Meadows Museum, Meadows School of the Arts, P. Gregory Warden, Poggio Colla Field School

Fossils & Ruins Plants & Animals Student researchers

Mistaken ID for official Texas state dinosaur; name to change

Post author By Margaret Allen
Post date January 13, 2009

It’s a case of mistaken dino-identity. The official State Dinosaur of Texas is up for a new name, based on Southern Methodist University research that proved the titleholder has been misidentified.

State Rep. Charles Geren of Fort Worth filed a resolution January 7 to change the name of the state dinosaur from Pleurocoelus to Paluxysaurus jonesi to correctly name the massive sauropod whose tracks and bones litter the central Texas Jones Ranch.

Peter J. Rose is the scientist behind the name change: His master’s level study of dinosaur bones at SMU eventually led him to dispute the long-accepted notion that the large, sauropod bones found in and around the Paluxy River near Glen Rose, Texas, were the same as Pleurocoelus bones first found in Maryland in the late 1800s.

Rose determined it was a different dinosaur altogether — a previously unrecognized genus and species he named Paluxysaurus jonesi, after W.W. Jones, the owner of the land on which the fossils were found. Once Rose’s discovery was published in 2007, Pleurocelus’ grand Texas title no longer fit.

Geren filed his resolution on behalf of constituents at the Fort Worth Museum of Science and History, which is a partner with SMU in ongoing research at the Glen Rose site, about 60 miles southwest of Fort Worth. Aaron Pan, Ph.D., the museum’s curator of science, believes it’s crucial to get the record corrected.

“I think it’s going to be good for Texas paleontology and dinosaur research in general,” Pan said. “Peter Rose’s research has found that it is a new genus and a new species. This dinosaur is unique to Texas, and it is the most abundant dinosaur fossil found in the Glen Rose area.”

SMU geological sciences professor Louis L. Jacobs, who was Rose’s mentor, said that nobody before Rose had made an adequate study of the sauropod bones found at the Glen Rose site. Jacobs has described Texas as a kind of “free trade zone for the age of reptiles” since dinosaurs from three different geologic time periods have been found in three different geographic areas of the state. Paluxysaurus jonesi is believed to have lived 112 million years ago during the Cretaceous Period.

“It just goes to show that Texas is a great place to make great discoveries — even when you might think everything has been found,” Jacobs said.

Rose, 29, received his master’s degree in geological sciences from SMU in 2004. Currently pursuing a Ph.D. in paleontology at the University of Minnesota, he concedes he is excited about the proposal to change the state dinosaur’s name to correspond with his research.

“But when you come down to it, whether it’s a new species is not the big question. More important are some of the bigger picture ideas about how these organisms evolved and what they were doing when they were alive,” Rose said. “I hope the future work I do has some broader implications. Currently I’m doing more climate research with implications, I hope, for global climate change.”

Tags Aaron Pan, Louis L. Jacobs, Michael J. Polcyn, Paluxysaurus jonesi, Peter J. Rose

Culture, Society & Family Fossils & Ruins Student researchers

Digging the Etruscans: Students unearth treasures in Italy

Post author By Margaret Allen
Post date November 13, 2008

Senior art history major Jayme Clemente was working in trench No. 35 in July at an archaeological dig 20 miles northeast of Florence, Italy, when something caught her eye.

“I saw something green in the dirt,” she recalls. Green is the color of oxidized bronze.

Oxidized-green bronze Etruscan coin.

“When you’ve been staring at this light brown mixture of dirt and you see something that is not in the same color palette — it was just an exhilarating feeling to know that there was something in the ground.”

Her trench supervisor raced over and confirmed the first coin discovery of SMU’s 2008 Poggio Colla Field School season in the Mugello Valley. Clemente then worked as slowly as she could to extract the item from the dirt because bronze coins are very fragile after being buried for 2,000 years.

“Your first reaction is to get it out as fast as you can, but you have to take your time and be very patient” to deliver it to the dig conservator in one piece, Clemente says. She is fascinated by the coin’s ability to reveal so many details about the culture in which it was used. Through her research she learned this particular coin was struck far to the south, somewhere between Rome and Naples, between 275 and 250 BCE.

Jayme Clemente digs at Poggio Colla.

As the site’s field manual says: “It’s not what you find, it’s what you find out.”

Clemente learned her lessons well, says P. Gregory Warden, University Distinguished Professor of Art History. He also serves as the Mugello Valley Archaeological Project’s (MVAP) principal investigator and co-director of its Poggio Colla Field School, an internationally recognized research training center in which SMU has participated since 1995.

Clemente was one of a dozen SMU students who were joined at the field school last summer by students from Dartmouth, Princeton and other universities.

The Poggio Colla site spans most of Etruscan history, from 700 BCE to the town’s destruction by the Romans around 178 BCE, which makes the site very rare. It also is distinctive because of what is not there. The Etruscans picked beautiful, easily defended hilltops for their settlements. As a result, generation after generation built new cities on top of their sites. That means many have 2,000 years of other civilizations on top of Etruscan artifacts, Warden says. Not so Poggio Colla, which is all Etruscan.

The oxidized-green bronze Etruscan coin discovered by Clemente features the head of Athena on one side, a rooster on the reverse.

No one knows why the Etruscans disappeared. Most of what archaeologists have learned about the culture in the past 40 years comes from funerary remains that represent the death rituals of the wealthy. Poggio Colla is different, Warden says. It represents an entire settlement, including tombs, a temple, a pottery factory and an artisan community. Excavations of workshops and living quarters are yielding details about Etruscan life to scholars from SMU and its partners, the University of Pennsylvania Museum of Archaeology and Franklin and Marshall College in Lancaster, Pennsylvania.

Recent finds included a large stone column base that probably belonged to the temple and a ritual pit within the sanctuary where the Etruscans placed a series of sacred objects such as gold thread, two statue bases and two bronze bowls. One of the bowls rests atop the bones of a suckling pig that was sacrificed as part of a purification ritual.

The temple is revealing new information about the Etruscans, who had a theocratic social structure and were considered “the most religious peoples of the ancient Mediterranean,” Warden says. “We can show where the priest was standing and how the objects were placed in this sacred pit with attention to the cardinal points of the compass, reflecting Etruscan religious beliefs and their idea of the sacredness of space.”

The findings are so striking that the British Museum invited Warden to deliver a lecture there in December 2007 on “Ritual and Destruction at the Etruscan Site of Poggio Colla.”

The Italian government long had planned to create a regional archaeological museum in the area. The many discoveries at Poggio Colla moved that plan along, and Warden was a special guest at the museum’s opening in December.

All the artifacts found at Poggio Colla are the property of the Italian government and remain in that country. Because of connections created through the MVAP, more than 350 Etruscan artifacts from Italian museums and 100 artifacts from the field school site will be on loan to the Meadows Museum starting in January for the largest and most comprehensive Etruscan exhibits ever staged in the United States. Warden also will teach a course on “Etruscan Art and Archaeology” for the SMU Master of Liberal Studies program in the spring.

The coin that Clemente found is expected to be part of the exhibit.

“I never knew that it would be put into a museum,” she says, “but I feel pride in knowing that I was a part of the process.” — Deborah Wormser

Tags Meadows Museum, Meadows School of the Arts, P. Gregory Warden, Poggio Colla Field School

Energy & Matter Health & Medicine Student researchers Technology

Skeptics aside, “computing with light” will replace silicon chip

Post author By Margaret Allen
Post date June 30, 2008

Gary Evans

SMU Professor of Electrical Engineering Gary Evans recently received some good news: Journal reviewers said they thought his proposal for solving one of the most perplexing problems in the emerging field of integrated photonics sounded impossible.

“To me, that’s extremely promising when the reviewers don’t think it’s possible,” Evans said. “When that’s happened, it’s been fun showing the reviewers that the conventional wisdom is incorrect.”

Photonics is the science of processing or transmitting information using light. Fiber-optic systems — perhaps the field’s best known application — transform telephone conversations into laser-generated signals that travel through thin glass wires to machines that decode the signals at the other end.

A photon is a light quantum, the smallest measurable unit of light. Integrated photonics researchers seek to create circuits that use photons to do what electrons do in electric integrated semiconductor circuits.

Evans and Jerome Butler, university distinguished professor of electrical engineering, think they have hit on a solution to the problem of integrating an optical isolator with other components in a photonic circuit. In electric semiconductor circuits, diodes act as isolators by letting electrons flow in only one direction.

“Isolation is crucial when you put about 1 billion devices on a single chip of silicon,” Evans says. The two researchers want to integrate an optical isolator with a tiny semiconductor laser that would let light travel in one direction within a photonic semiconductor circuit and keep it from reflecting back into the laser, where it could create instabilities in the laser’s output.

It is understandable that their peers might be skeptical, Evans says. Researchers around the world have been trying to create integrated photonic isolators since the 1970s and no one has overcome the problem of reflection in photonic circuits.

Evans had a similar experience when he worked with lasers at RCA Labs in Princeton, N.J., before joining SMU. In 1984 all semiconductor lasers were edge-emitting, meaning they generated light from the edge of the chip rather than the surface. Evans and his team proposed a surface-emitting laser to the U.S. Air Force.

“Their reviewers said we could never get light out, much less create a laser,” he recalls, adding that his team wrote a proposal and nevertheless received funding from the Air Force starting in 1985.

In only seven years, Evans’ group got light out of the system and demonstrated surface-emitting lasers with performance efficiencies as good as edge-emitting lasers. When he came to SMU in 1992, the Air Force continued to fund Evans’ work, which resulted in a spin-off company, Photodigm in Richardson, Texas.

Photodigm conducts research for the government and manufactures a range of lasers, most of them edge-emitting lasers that have been improved using processes developed for surface-emitting ones, says Evans. He is Photodigm’s co-founder, vice president and chief technology officer. Another co-founder is Jay Kirk, the Electrical Engineering Department’s lab manager and Evan’s former colleague at RCA. Electrical Engineering Chair and Associate Professor Marc P. Christensen is on the company’s technical advisory board, as is Butler, who worked closely with Evans when he was at RCA and helped lure him to SMU.

Evans has since expanded into medical photonics, working with SMU and Drexel University colleagues on a photodynamic therapy system to treat cancer of the esophagus.

Marc Christensen

Similar laser-based systems are used commercially, but they are large and water-cooled. The team hopes to create a machine that’s portable and cheap enough for use in every doctor’s office. Their design uses arrays of semiconductor lasers, each no bigger than a grain of sand, inserted into the esophagus via a balloon catheter. The patient is given a photosensitive drug that kills cancer cells during a chemical reaction triggered by the lasers.

Christensen says SMU’s photonics researchers — who include faculty members in electrical engineering, mathematics and physics, plus their graduate students — come together periodically for interdisciplinary meetings because so many fields are involved in creating and understanding photonic devices.

Christensen’s Photonic Architectures Laboratory has received more than $2 million in grants from the Defense Advanced Research Projects Agency, DARPA, for a project to make unmanned aerial vehicles, UAVs, stealthier.

“Today we think of a Predator UAV as flying at 30,000 feet carrying a really nice camera with a long lens that can zoom into an area on the ground and look at it very carefully,” Christensen says. Ideally, the device would be tiny with a flat lens, like a cell phone camera; however, those cameras do not produce images of adequate resolution.

Christensen’s interdisciplinary team has devised a multi-step solution that starts with an array of hundreds of tiny, flat, square cameras and equally tiny, square mirrors placed in a grid pattern that can be mounted on the underside of an aircraft as small as a model airplane. Each camera will provide slightly different information about the subject because each takes a photograph from a slightly different angle.

Computational imaging is then used to combine the numerous low-resolution images to create a sharper image that is akin to one taken by a high-performance camera too heavy to fit on the small aircraft.

Computational imaging: Each hexagonal
face is a micro-mirror, individually
positioned to create an overall shape.

“Wouldn’t it be great if the camera could determine from its wide shot which objects in the field are most important and be able to zero in on them?” Christensen asks.

Such a camera is under development at SMU. Called an adaptive resolution camera, it would analyze the wide view and use mathematical formulas to identify objects of interest — such as aircraft on the ground.

Instead of simple mirrors, the adaptive resolution camera uses an array of micro-electric machines, called MEMs. Each MEM looks like a mirror that is hundreds of microns across, or about the width of a few human hairs, attached to three even smaller levers. The levers would reposition the mirrors in the desired direction to improve the information collected by the camera’s next photographs to create another, better image — all faster than the blink of an eye.

The smarter camera would automatically put more pixels in the areas of interest and less in those considered unimportant, he says, adding that the resulting picture may look strange by conventional standards, but it would provide more useful information.

The team from the Department of Electrical Engineering in the SMU Bobby B. Lyle School of Engineering incorporates skills from physics, mathematics and computer science. Assistant Professor Dinesh Rajan, a specialist in information theory, finds the mathematical route to the best final image, a so-called “goodness value.” Associate Professor Scott Douglas, an adaptive algorithms expert, crafts the formulas to make the system home in on the important details within the big picture. And Professor Panos Papamichalis works on their robustness, making the system more tolerant of the adversities the camera will encounter in daily use.

Integrated circuits make the thousands of necessary computations, and “given the need for miniaturization, the best way to reduce the size of those circuits would make them fully photonic,” Christensen says. That step, however, is some time off. For semiconductor laser structures, Christensen works with Evans.

The two have just started a project, also for DARPA, in collaboration with the University of Texas at Dallas, Photodigm, Raytheon and Northrop Grumman. The goal: to develop signal processing with photons, instead of electrons; in other words, computing with light.

To achieve this they must create the photonic equivalent of a semiconductor chip. Most computer chips are made with silicon, which doesn’t emit light very well. A better choice is indium (In) phosphide (P), called a III-V semiconductor, Christensen says. The goal is to emit and control light, one photon at a time.

“At the quantum level you are literally controlling individual photons and providing gain (to amplify signals),” says Christensen. He compares the current state of photonic integrated circuits with the world’s first electronic integrated circuit, invented at Texas Instruments 50 years ago this summer by the late Jack Kilby when he linked a handful of transistors on a single silicon chip. Over the next 50 years, semiconductors evolved from a handful of components on that first chip to hundreds of millions of components on a single chip, he says.

“If you look at the state of photonics processing, it’s about 6 to 15 components,” he says. “It’s like we’re starting today where Jack Kilby was 50 years ago, and it will be interesting to see where a few decades takes the field of integrated photonics.” — Deborah Wormser

Tags Dinesh Rajan, Gary Evans, Jay Kirk, Jerome Butler, Lyle School of Engineering, Marc Christensen, Panos Papamichalis, Scott Douglas