SPS Seminar – Summer research

SPS Seminar
Friday, October 14
3 pm
VW 104

Anna Lunderberg
Exploring the Effects of Copper on Composition and Charge Storage of Prussian Blue Analogue Pseudocapacitors

As energy usage has increased in recent years, there has been great demand for efficient, cost-effective, and earth-abundant materials to be used for energy storage. The ability to produce hexacyanoferrate (HCF) modified nickel film for use as a pseudocapacitor has already been demonstrated. This project focuses on the effects on the modification procedure and the resulting material of adding copper to the nickel metal film. A NiCu film was deposited onto a gold substrate with a controlled potential electrolysis experiment, then was modified and characterized with a cyclic voltammetry experiment. The composition was determined with a scanning electron microscope with energy dispersive x-ray spectroscopy before and after the modification process. Copper was selectively removed in some cases as a result of the modification. With increased levels of copper, the material can become structurally unsound and result in unintentional stripping of the material. Preliminary data suggests that as the pre-modification level of copper is increased, the resulting charge storage of the HCF film increases as well.

Alec Nelson
Scanning of the Intermodulation of Superconductor Resonators

At the resonant frequency, superconductor resonators produce intermodulation distortions, smaller signals near the resonant frequency. By inducing external microwave signals, it is possible to analyse the patterns of intermodulation distortions (IMD) in several different types of superconductor resonators. These measurements can be used to complement the main peak values like quality factor and frequency shift in order to understand nonlinearities present in the material of the superconductor. Once spatial distributions of IMD have been identified, they can be used to interpret IMD signals from unknown superconductors and identify various defects in the crystal structure. Using a probe outputting two combined tones into the resonator, it was possible to map the whole of a two-dimensional resonator, using the IMD as the z-direction. In order to best resolve the intermodulation distortions, two superconductors were imaged, a hairpin wide-line resonator and a thin, line resonator. A contour plot of the data was then generated, which displays the IMD of the given resonator.

Caleb Sword
Determining the Nuclear Structure of an Unstable 25O Isotope

One of the primary goals of nuclear physics research is to better understand the force that binds nucleons. This can be accomplished by studying the structure of neutron-rich isotopes. For this experiment, excited 25O nuclei were formed by a collision between a 101.3 MeV/u 27Ne ion beam and a liquid deuterium target at the National Superconducting Cyclotron Laboratory. One resulting reaction involved two-proton removal from 27Ne particles, which created excited  25O nuclei that decayed into three neutrons and an 22O fragment. The four-vectors for the neutrons and 22O fragments were determined, allowing the calculation of the decay energy for this process on an event-by-event basis. However, another reaction would also take place, in which an alpha particle was stripped from the beam, creating 23O nuclei that decayed into an 22O fragment and a single neutron. In order to distinguish between 22O fragments and neutrons from both 25O and 23O isotopes, members of the MoNA collaboration are conducting GEANT4 simulations of each decay process in order to uncover their distinguishing characteristics. By successfully correlating simulated decay processes to experimental data, the relative cross sections of the two decay processes will be determined, and their decay energies will reveal more about their nuclear structures.

SPS this Week

  • SPS will meet at 4:30 to 5:30 on Wednesday, October 6th this week in VanderWerf 102.

This Week in Physics

October 2 1909: Orville Wright sets an altitude record, flying at 1,600 feet. This exceeded Hubert Latham’s previous record of 508 feet.

October 3 1985: The Space Shuttle Atlantis makes its maiden flight.

October 4 1957: Sputnik 1, the first man-made satellite, is launched, beginning the “space race.” The satellite, built by Valentin Glushko, weighed 184 pounds and was launched by a converted Intercontinental Ballistic Missile (ICBM). Sputnik orbited the earth every 96 minutes at a maximum height of 584 miles. In 1958, it reentered the earth’s atmosphere and burned up.

October 4 2004: SpaceShipOne, which had achieved the first privately funded human space flight on June 21, wins the Ansari X Prize for the first non-government organization to successfully launch a reusable manned spacecraft into space.

October 5 1882: Robert Goddard, an American rocket scientist who held more than 200 rocketry patents, is born.

October 6 1995: Astronomers discover 51 Pegasi, which is the second star known to have a planet orbiting it.

October 6 1931: Riccardo Giacconi, an Italian astrophysicist who won the Nobel Prize in Astrophysics for his pioneering contributions that led to the discovery of cosmic X-ray sources, is born.

October 7 1885: Niels Bohr, physicist whose model of atomic structure helped establish quantum theory is born.

October 9 1879: Max von Laue, German physicist is born.

Problem of the Week

A rubber band is held in place with one end fixed to a wall and the other end held by a curious physicist. An ant sits at the end of the rubber band held by the physicist. Suddenly, the physicist begins to pull the rubber band at a constant velocity, while the ant crawls at a constant speed (relative to the band) towards the wall.

While pulling the rubber band, the curious physicist begins to wonder: is it possible for me to pull the rubber band fast enough so that the ant never reaches the wall?

Send a written answer to this question, as well as a username you would like to be referred by, to jason.gombas@hope.edu. We will publish the username of any student who answer the curious physicist’s question.

Academic year internships at Oak Ridge

Science Undergraduate Laboratory Internships (SULI) Program at Oak Ridge National Lab

The Science Undergraduate Laboratory Internship (SULI) program encourages undergraduate students to pursue science, technology, engineering, and mathematics (STEM) careers by providing research experiences at the Department of Energy (DOE) laboratories. Selected students participate as interns appointed at one of 17 participating DOE laboratories/facilities. They perform research, under the guidance of laboratory staff scientists or engineers, on projects supporting the DOE mission.

SPS Weekly Update

SPS this Week

Next meeting:    Wednesday 9/27 VW102 4:30-5:30.

Events:
  • Movie night – The Martian. Meet for dinner at 5:00 at Phelps. Walk over to VW102 for the movie after dinner.
  • Physics Seminar at 3:00pm in VanderWerf Hall 104 – Learn about STEM opportunities in Philadelphia from Dr. Annie Dandavadi, the director of the Philadelphia Center.

This Week in Physics

  • September 25 1992: NASA launches Mars Observer probe; it fails 11 months later.
  • September 25 2008: China launches Shenzhou 7 spacecraft; crew performs China’s first extra-vehicular activity (EVA).
  • September 27 2003: European Space Agency launches SMART-1 satellite to orbit the moon.
  • September 27 2007: NASA launches Dawn probe to explore and study the two larges objects of the asteroid belt, Vesta and Ceres.
  • September 27 2008: Zhai Zhigang becomes the first Chinese to walk in space; he was part of the Shenzhou 7crew.
  • September 28 2008: SpaceX launches the first private spacecraft, Falcon 1.
  • October 1 1847: Maria Mitchell, an American astronomer, discovers a comet and is elected the same day to the American Academy of Arts. The King of Denmark will award her a gold medal for her discovery.

SPS Problem of the Week

George Hemlock, the famous wooden sphere enthusiast, has just acquired two new balls for his collection. The two balls are identical in texture, volume, and weight, yet one is hollow while the other is uniformly solid. While carrying the spheres to his Protective Safe of Wooden Balls, George accidentally drops them both, losing track of which is which. Normally, Mr. Hemlock would have hit each each ball with his knuckles to see which makes a hollow ringing noise, but the playlist on his iPhone begins to play his favorite Justin Bieber song. Transfixed by the beautiful vocals caressing his eardrums, George can no longer hear which wooden ball returns the distinctive ringing noise.

Can you think of a simple experiment Mr. Hemlock can perform to differentiate the spheres before the Bieber song ends?

Send a written solution, as well as a username you would like to be referred by, to jason.gombas@hope.edu. We will publish the username of any student who successfully assists Mr. Hemlock.

Work and Learn in Philadelphia!

Society of Physics Student discussion with Dr. Annie Dandavadi, Executive Director of The Philadelphia Center

Friday, September 30 at 3 pm in VanderWerf 104

Want to spend a semester using your scientific skills while earning academic credit and living in a vibrant, exciting city?  Come and learn more about opportunities for physical scientists, computer scientists and engineers from Dr. Annie Dandavadi, the Executive Director of The Philadelphia Center.  Previous internships have been in forensic science, environmental science, home energy auditing, biological sensor development and more.  In addition, there are many outstanding museum and informal education programs in the city looking for science interns to lead programs and develop new materials.  Have other ideas?  The Philadelphia Center staff will work with you to make connections with companies, government agencies and academic institutions in Philadelphia to find an internship that helps you apply your knowledge and skills outside of the classroom!

All students interested in STEM internship opportunities with the TPC are welcome to come!