Tag Archives: Native American

A Teacher’s Experience at Edmund Optics

Claire, far right, with her O-RETINAS RET cohort at the closing poster session.

Edmund Optics (EO), Inc. is where my industry experience took place. In 1942, EO started as a supplier of optics and science items for hobby and educational purposes. As EO celebrates its 75th anniversary, they have become a leading manufacturer and supplier of lens and optics equipment worldwide. The site visits to the Edmund Optics Tucson office included shadowing the employees of the following departments: research & development, design, and customer service.

Edmund Optics Tucson office included shadowing the employees of the following departments: research & development, design, and customer service.

I started in the research and development (R & D) department. The task on this day was to find the right combination of pressure, direction of movement, and composition of slurry to create a suitable cylindrical lens. This involved measuring a 3-dimensional surface of the blank (lens), using a light meter to take a picture of the surface of the lens, and polishing the lens by adjusting the factors involved (time, composition of the polishing slurry, the polishing pad, the pressure applied to the blank (lens) and the configuration of the movement of the polishing pad). The measurement and picture of the blank were done by machines. However, the polishing of the blank (lens) required an understanding of physics, chemistry, and mathematics, and experience in the use of the materials used.

Claire presents her project to her Edmund Optics hosts.

My second visit was to the design department. When a customer needs a specialized optics system, they talk to the design department. The process begins with the optics design engineer communicating with the customer. The design engineer then creates a design of the optics system that meets the requirements of the customer. Once an optimal choice of components has been made, the design engineer creates a blueprint of the optics system and sends it to the mechanical engineer. The job of the mechanical engineer is to analyze the optics system blueprint and make decisions on whether the design is physically possible to build. Then the mechanical engineer will consider the materials and the fabrication process and, if necessary, will make modifications to the design. If the specifications are too tight or limiting, then the mechanical engineer will send the blueprint back to the design engineer with recommendations for improvement. Once a blueprint has been finalized, it is sent to the manufacturing location in Barrington, New Jersey.

In the lab at the University of Arizona.

My third visit was to the customer support department. There are two types of employee positions in this department, customer support and product support. Most of the customer support employees have engineering degrees. A customer support employee must be familiar with the optics in the EO catalog. To learn about optics components newly-hired employees go through five weeks of training. This training includes phone etiquette, product identification in the EO catalog, and a personality evaluation. Once training is complete the customer support employee is ready to process online and phone orders. What happens when a customer calls to order an optics component but doesn’t know whether it is the right one? Then the job goes to the product support employee. These are the employees who help the customer make a product choice based on their needs. They are trained to determine whether EO has the correct part or if the part needs to be a custom made.

As I reflect on my site visits with Edmund Optics, Inc., I realize their success in the lens and optics equipment business is because they have a knowledgeable workforce. Almost every employee at EO, even the customer support employee, has an engineering degree. The employees at EO know optics. The field of optics is presently experiencing rapid growth and for EO to keep up with the demand for precision lens and optics components, they need to have well-trained and knowledgeable employees. The knowledge EO employees bring to their jobs is invaluable.

My students…must also be equipped with a toolbox filled with 21st century skills, such as critical thinking, creativity, innovation, communication, problem-solving, analysis, and research skills. It’s my job to get them there.

How have these visits impacted me professionally? The implications for me as a science teacher are I need to stay abreast of the latest educational trends, I need to have a sound knowledge of the subject matter I teach, and I need to continually update my catalog of instructional strategies. If my students are going to be ready for a career that requires them to be technologically savvy, not only must they be aware of the latest trends in their chosen field, they must also be equipped with a toolbox filled with 21st century skills, such as critical thinking, creativity, innovation, communication, problem-solving, analysis, and research skills. It’s my job to get them there.

The final project

How will I convey the importance of this message to my students? I need to communicate to my students the importance of knowing their subject matter and of developing the skills and learning strategies that will make them great employees. I can help my students know their subject matter by including instructional strategies that include components of inquiry and discovery. I can help my students further their knowledge base by including assignments that include information gathering with the use of technology. I can include lessons that combine the engineering design process with opportunities for students to report/present their findings. As I provide these types of learning opportunities for my students, I will remind them that the skills they are practicing in our classroom are the very skills they are going to need in STEM careers.

Learn more about applying to the O-RETINAS RET Program!

Learn more about Edmund Optics.

Claire McKenzie
7-12th grade teacher at
Los Alamitos Middle School

My name is Claire McKenzie. I graduated from the University of New Mexico in 1988 with a Bachelor’s degree in math education and completed the teacher certification program by 1991. My teaching career began at Manzano High School in Albuquerque, New Mexico. For the next 7 years, I taught middle and high school mathematics in northwestern New Mexico. I took a leave of absence to raise and homeschool my children.  Returning to teaching in 2012, I accepted a position to teach developmental math at New Mexico State University in Grants, New Mexico for three years. Once I became endorsed to teach secondary science, I accepted my current teaching assignment as the STEM physics teacher at Los Alamitos Middle School in Grants, New Mexico.

O-RETiNAS 2017 Program

In its second year of grant funding (7th year for CIAN’s Native American focused Research Experience for Teachers programs) CIAN hosted eight educators of Native American students. These teachers participated in an 8-week summer program at the University of Arizona. This included multiple relevant workshops, a course in the College of Education through the Teachers in Industry program, an intensive research laboratory experience, and a unique industry experience at CIAN’s partner companies (Edmund Optics, Lam Optics, and the UA Tech Park).

 

Teacher School Taught at Subject & Grade Taught Mentor Project
Marjorie Beno Pinon Middle School 7th grade science Alan Kost Laboratory Robotics Distance Learning Education
Roger CrazyWolf Thoreau HS 9-12th science and health Jesse Little Supersonic Pressure Profiles
Rowena Ranoco Newcomb High School 10-12th chemistry, anatomy & physiology, integrated science Sasaan Showghi DIY Droplet Lenses from Three Commercial Polymers
Claire McKenzie Los Alamitos Middle School 7-12th, & Developmental Com. College mathematics and physics Bob Norwood Which Lens do I Use? The Characterization of Acylindrical Array Lenses
Dan Moreno Gresham School 9-12th chemistry and biology Jeff Pyun Nanomaterial Synthesis for Magneto-Optical Sensing Applications
Rolanda Francis Wingate High School 9-12th chemistry, physics, environmental sciences, intervention math & reading Dan Kilper Fiber Optic Temperature Monitoring for Water
Olivia Lansing East Valley Academy 9-12th biology, chemistry, physics, earth science, environmental science Euan McLeod Characterization of Functionalized Gold Nanoparticles with Gel Electrophoresis
Cynthia Demone Sherman Indian High School 10-12th biology and chemistry Alan Kost Laboratory Robotics Distance Learning Education

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CIAN would like to especially thank the many faculty and graduate student mentors who made this summer such a success. Additionally, CIAN gives special thanks to the industry partners hosting teachers throughout this summer.

Edmund Optics

Lam Optics

UA Tech Park

If you are interested in learning more about the O-RETiNAS RET program or applying, please visit our website.

Additionally, if you are interested in hosting teachers as an industry partner or helping in other ways as an industry partner, please contact us.

Inaugural O-RETinas Summer Program Success

CIAN is excited to announce completion of the first summer of the Optics Research Experience for Teachers in Native American Schools (O-RETinas) Research Experience for Teachers (RET) summer program.

This innovative program program hosted four teachers during the 2016 summer in a variety of research labs in optics, engineering, and chemistry as well as invited them to participate in an industry practicum. The teachers not only performed a guided research project in an innovative research laboratory but they also learned about industry applications, took a course at the University of Arizona, and participated in a number of culturally related workshops.

CIAN will continue the O-RETinas program in Summer 2017. Visit the website to learn more about how to apply!

CIAN is seeking additional industry mentors for the future O-RETinas programs. If you believe your company would be interested in hosting a teacher, please contact us!

Participant Mentor & Internship School & Grades Taught Project
Nate Raynor Dr. Qing Hao
4D Technology
Mescalero Apache School, 9th-12th grades Hot Pressing
Rhonda LaFrance Dr. Xiushan Zhu & Dr. Leonid Kotov
4D Technologies
Ahkwesahsne Mohawk School, 6th-8th grades Neodymium Doped Fiber Amplifier at 935nm
Dan Moreno Dr. Jeffrey Pyun & Laura Anderson
NP Photonics
Menominee Indian School District, 9th & 11th grades Melt Processing Advances with Sulfur Copolymers For Industrial Optical Applications
Geary Crofford Dr. Robert Norwood & Christine Alvarez
NP Photonics
Woodall Middle School (Cherokee Nation), 6th-8th grades STEAM Research Projects: Diatoms, Optics, and Photonics

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IOU-NA Student Presents at NGWA Conference

FullSizeRenderDuring my attendance at the National Ground Water Association conference I had the opportunity to present my research to the attendees. My research presented was from an internship conducted at the University of Arizona during the summer of 2015. In addition, the research presented was from a combination of two Hydrology graduate students and a professors work. The NGWA conference was primarily focused on ground water quality in the Southwestern area of the United States. Also, the conference included water discharge/recharge in urban areas, climate change, private well inspections, water toxins, public awareness, water conservation, and local water rights. Throughout the conference I gained valuable information about the ground water quality in the surrounding area that I may be able to use for future research. This opportunity  could not have occurred without the assistance and funding from CIAN’s REU IOU-NA program, UROC, and NSF.

Learn more about the IOU-NA Program and how to apply!

Galveston Begaye - Fort Lewis College, Summer 2015 Participant

Galveston Begaye – IOU-NA 2015 Participant, Fort Lewis College

Galveston attends Fort Lewis College as an undergraduate student studying Engineering. Over the 2015 Summer IOU-NA REU program he researched “Changes in DOM Quantity and Quality in a Southern Rockies Forested Catchment Introduction” with Professor Tom Meixner.  He hails from the Navajo Nation and the Táchii’nii – Red-Running-Into-The-Water Clan and Ashiihi – Salt Clan.

AISPIRE After-School Program – Visit to the U of A

CIAN has formed a partnership with the San Simon Day School located on the Tohono O’odham reservation in Arizona. Together, San Simon teacher and previous Research Experience for Teachers (RET) participant, Martha Rogers, and CIAN faculty, staff, and graduate students are working to develop and host an exciting after-school program for these students ranging in grades 3 to 8.

The AISPIRE After-School Program (or American Indian Student & Parent Involved Research Experience) is a huge hit with students and parents. Recently, on November 3rd forty-six San Simon students, their teachers, and a few parents traveled from the school to the University of Arizona for a personalized visit. Students visited three CIAN laboratories including the 3D holography lab, the Quantum Nano Optics of Semiconductors (QNOS) lab, and the Multiphoton Microscopy lab. Then the students learned about Optics by creating their own lenses using “Edible Optics” designed and created by CIAN student, Jasmine Sears. Finally, the students learned about kaleidoscopes and created their own kaleidoscopes to take home with them.

Overall, it was an amazing day and visit with the students of San Simon and the AISPIRE program.

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IOU-Native Americans Summer Research Program Accepting Applications

APPLY TO THE IOU-NA PROGRAM!

Application Deadline: January 31, 2016

Program Dates: June 6, 2016 – August 12, 2016 (TBD)

WHAT IS CIAN?

CIAN is the Center for Integrated Access Networks, an Engineering Research Center (ERC) funded by NSF that consists of research labs at 10 different universities. CIAN offers a 10-week summer program designed for undergraduate Native American students interested in exploring optics and photonics, as well as hydrology, soil sciences, atmospheric sciences, or environmental sciences. (See a slideshow of the Summer 2014 IOU-NA at the bottom of this page).

WHAT IS IOU-NA?

IOU_NA_002The Integrated Optics for Undergraduate Native Americans (IOU-NA) Research Experience for Undergraduates (REU) program is designed for Native American students interested in participating in hands-on research opportunities in top laboratories in optics and photonics, as well as in hydrology, astronomy, soil sciences, atmospheric sciences, and environmental sciences. Selected students are paired with a research project complementing their interests and goals.

Galveston BegayIMG_4579IOU-NA students will also participate in Native American focused workshops facilitated by University of Arizona’s Native American-serving entities, gain hands-on experience in CIAN’s culturally relevant two-week Native American focused Optics Research Workshop (ORW), attend presentations given by Native American STEM graduate students and faculty, as well as participate in other activities designed to support Native American Undergraduate students.

STIPEND

CSC_5743A stipend of $5,000 is available for successful participation in the full 10-week program. Additionally, travel to and from the university at the start and close of the program will be covered as well as housing on campus (Want to participate but live off-campus? Contact us with questions about off-campus housing.) during the 10-weeks of the program. (Something else holding you back from applying for the opportunity? Please contact us!)

EXAMPLES OF PREVIOUS PROJECTS

  • Smartphone-Based Ocular Imaging System
  • Investigating Lead and Arsenic Exposure Risks to a Community Area through Analysis of Airborne Particles on Children’s Playground Surface Equipment
  • Changes in DOM Quantity and Quality in a Southern Rockies Forested Catchment
  • Polarized Raman Microscopy of Aligned Carbon Nanotubes
  • The Influence of Ordered Nanostructured Carbon Electrodes on Supercapacitor Performance
  • Evidence for Deep Mountain Block Circulation from Stream Chemical Data in Sabino Creek
  • Nutrient Uptake by Plants and their Associated Microbiota Grown in Different Porous Rock Substrate
  • Optimization of Optical Transmission of Gigabit Ethernet Rates

WHO IS ELIGIBLE?

Native American undergraduates, attending a two or four-year college or tribal college, of all levels studying a Science, Technology, Engineering, or Mathematics (STEM) major. Minimum 3.0 GPA required, on a 4.0 scale. US Citizenship or permanent residency is also required.

APPLY TO THE IOU-NA PROGRAM!

APPLICATION DEADLINE: JANUARY 31, 2016

SEE THE FLYER!

READ ABOUT PAST STUDENTS’ EXPERIENCES

Solianna Herrera – Atmospheric Sciences, “My Experience with CIAN’s IOU-NA program”
Robert Castellanos – Optics, “A Packed Schedule – “Plunging into academics with CIAN”

ADDITIONAL MATERIALS REQUIRED FOR APPLICATION

Letter of Recommendation

May be mailed to CIAN in a sealed and signed envelop by the letter writer, or emailed directly by the letter writer. Please give your letter writer this form to complete.

Official Transcript

Please mail an official transcript to the CIAN headquarters.

All mail may be directed to CIAN headquarters.

Center for Integrated Access Networks (CIAN)
University of Arizona
c/o Amee Hennig, CIAN Education & Outreach Manager
1630 E University Blvd., 501B
Tucson, AZ 85721

Email Amee Hennig with any questions.

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CIAN Summer Program Success Breakdown

Over the course of the summer CIAN universities hosted 65 students and teachers across eight CIAN universities. These are some of their stories…

Research Experience for Teachers (RET) Programs

Research Experience for Teachers programs are funded by the National Science Foundation (NSF), are six-weeks long, and incorporate both a laboratory research component and classroom component. By the end of the six-weeks, the educators participating have produced a research poster about their project as well as a lesson plan which will be implemented in the new school year applying the science and technology they have learned.

Learn more about the RET program & how to apply.

University of Arizona

The University of Arizona hosted eight educators from Native American reservations across the USA. This summer, educators came from the following institutes, Fond du Lac Ojibwe School, Blackfeet Community College, Browning High School, Navajo Technical University, Santa Rosa Day School, San Simon Day School, Menominee Indian High School, and Winslow High School. Together, the selected teachers impact six tribes including the Fond du Lac Band of Lake Superior Chippewa Nation, Blackfeet Nation, Navajo Nation, Tohono O’odham Nation, Menominee Nation, and the Hopi Nation. Participants not only spent time performing research within their laboratories, but also participated in classes taking place at the American Indian Language Development Institute (AILDI) as well as completing a workshop on Native American Education with Dr. Greg Cajete, expert in the field. One participant shared his upcoming plans after the program,

My intentions for the upcoming school year are to incorporate some of the experiments that I was fortunate to witness with my students.  We will demonstrate the sun’s energy to produce electricity, cook food, produce hydrogen and improve our environment at the same time…this was a good way to spend six weeks and I would do it again in a heartbeat. ~ Julius Salinas (Fond du Lac Ojibwe School)

CSC_0074

UA ROKET Participants (L to R): Natalie Davis, Vincent Hood, Martha Rogers, Daniel Moreno, Leo Bird, H. Scott Halliday, Marla Lopez, Julius Salinas

If you are interested in learning more about the RET program for educators of Native American students please contact us.

Columbia

NancyYi-ColumbiaRET

Nancy Yi and Dr. Dessislava Nikolova measuring the transmission characteristic of a silicon photonic modulator

Columbia hosted Nancy Yi, who is a physics teacher at Brooklyn Technical High School. While at Columbia University Nancy participated in the Lightwave research lab of Prof. Keren Bergman.  She was mentored by Dr. Dessislava Nikolova on a project that aims to develop a silicon photonic system for secure communications using the quantum properties of laser light. Silicon photonic devices have very small dimensions and moreover they can be manufactured with the same technology used for computer chips. As a first step in the project, Nancy and Dr. Nikolova characterized the voltage dependence of the transmission characteristics of all modulators on the investigated chip.

UCSD

3-JenniferQuach-UCSD

Jennifer Quach from Gompers Preparatory Academy spent the summer in Dr. Yeshaiahu Fainman’s laboratory. Her project titled, “Investigating Light and Their Chemical Properties” aims, “to understand light and its properties by explaining the similarities and differences between element spectroscopy and how that connects to their understanding of the atomic energy levels and photons emitted from excited state to ground state.” Using goals of the Next Generation Science Standards Jennifer hopes to see students forming a stronger foundation of the periodic table and its characteristics.

NSU

BillEvans-NSUBill Evans teaches Algebra II and Physics at Booker T. Washington High School in Norfolk, Virginia. This summer he investigated “Prism-Coupled Waveguides” with Dr. Demetris Geddis and Lawrence O’Neal at Norfolk State University. Branching off of his summer project Bill will apply the new knowledge to have his students create a circuit using Snap Circuits Kits and then apply knowledge from their understanding of the quadratic equation.

This experience has re-energized me as a teacher, made me much more aware of the quality of work that students need to be capable of performing in an engineering program, and has connected me to a wealth of human resources to mentor, coach, and tutor my students…This has been so powerful! My students will not believe “What I did on my summer vacation.” ~ Bill Evans (Booker T. Washington High School)

Tuskegee

Marie Lemon teaches 6th grade at Greenville Early College in Greenville, SC. This summer she spent 6-weeks in the lab of Dr. Naga Korivi and Dr. Li Jiang.

My goal is to infuse aspects of the lab’s research in my projects planned for this school year.  This lab has been full of invigorating activities and I have been absorbing ideas from the professors and engineering lab students.  One might conclude that 6th grade is too young to benefit from such an experience.  To the contrary… ~ Marie Lemon (Greenville Early College)

4-MarieLemon-Tuskegee-editMarie’s project focused on Smart House Technology incorporating Light Emitting Diodes (LEDs) and alternative sources of energy (fruit juice, saltwater, and solar panels) to wire the house. The concept of using photons in LEDs to send signals in devices, make connections, and do work in the process introduces and teaches circuits and electricity to 6th grade students. Through this work, students will continue to build on 21st Century skills; such as, collaboration, communication, and digital literacy necessary for college readiness.

Read more about her experiences and on her blog.

CalTech

Two teachers participated in the CalTech Research Experience for Teachers program. Joe Hartley from Larchmont Charter School and John Smallenburg from John Muir High School spent six weeks in the laboratory pursuing state-of-the-art research projects with faculty mentors.

Research Experience for Undergraduates (REU) Programs

Research Experiences for Undergraduates Programs are funded by NSF, ten-weeks long, and students participate on a research project as well as in professional development opportunities to prepare them for graduate school.

Learn more about the Integrated Optics for Undergraduate Native Americans REU program & how to apply.

Learn more about the Integrated Optics for Undergraduates program & how to apply.

University of Arizona

iouna photos

L to R (top): Robert Castellanos, Galveston Begaye, Lisa Willis, Brandon Jesus (bottom): Conrad Begay, Desiree Saraficio, Christian Bartholomew, Vernon Kaye

Through the NSF Research Experience for Undergraduate program CIAN at the University of Arizona hosted eight Native American Undergraduate students. Students hailed from four different tribes including the Colorado River Tribes, the Navajo Nation, the Tohono O’odham Nation, and the Port Gamble S’Klallam Tribe. Projects included developing a smartphone-based ocular imaging system, investigating lead and arsenic exposure risks to a community through analysis of airborne particles on children’s playground equipment, and polarized Raman microscopy of aligned carbon nanotubes; among many other exciting projects. The students also participated in the Graduate College’s Undergraduate Research Opportunities Consortium (UROC) Program to develop skills that will be essential for applying to, being accepted into, and succeeding in graduate school.

Learn more about the Integrated Optics for Undergraduate Native Americans REU program & how to apply.

Read about past students’ experiences; Solianna, Scott, & Robert.

UCSD

UCSD hosted two undergraduate students this summer in Dr. Yeshaiahu Fainman’s laboratory. Caylin VanHook attends Louisiana Tech University where she studies electrical engineering and physics. This summer her project was “Numerical Techniques in Near-field Optics and Materials.” Andrei Isichenko attends Cornell University and studies engineering and physics. His project was “Capacitvely-induced free-carrier effects in nanoscale silicon waveguides for electro-optic modulation.” Caylin and Andrei also participated in the UCSD STARS program which enabled them to attend a GRE preparation course, attend graduate school preparation workshops, present their research at the UCSD Summer Research Conference, and learn from other opportunities throughout the summer.

CalTech

Two students participated in the CalTech REU program. Aadith Moorthy researched “Vacuum Technology for Applications in Optoelectronics and Novel Environments.” Aadith studied miniaturized vacuum triodes and vacuum-based photodetectors, both of which utilize field emission of electrons. As a result of the project Aadith stated in his abstract,

This photodetector will help forward CIAN’s mission of creating transformative optical technologies by allowing for high speed conversion of an optical signal to an electronic one. Overall, the results substantiate the promise of field emission in vacuum technologies for novel applications and environments.

Daniil Lukin studied “Design and Fabrication of Low-Voltage Turn on Vacuum Triodes.” For his project he worked with four-terminal planar vacuum triodes with emitter-collector gaps under 10nm, fabricated out of tungsten on sapphire. This technology is expected to operate at high temperatures and high frequencies which will be useful for integration with on-chip photonics.

Columbia

LilianChik-ColumbiaREU

Lillian Chik presents her project at the Columbia REU Symposium.

Lillian Mun Shin Chik was mentored by Ph.D. student Christine Chen on implementing dynamic control of a Silicon photonic switch fabric through a computer interface, to improve system robustness with power resource allocation. Chik says, “For this project, I learned in detail about optical communications for high-speed networking, focusing primarily on the photonic packet switching architectures.” Jacob performed system optimization on the programmable wavelength locking firmware and software for the lab’s high performance silicon photonic link and switch systems. Jacob’s first deliverable was a modification to FPGA based signal processing of wavelength locking feedback signals – he replaced an unstable moving average filter with a more stable (fewer transients) median filter. Additionally, Jacob explored further automation of the system and began development of a lock-and-memorize protocol. Lillian and Jacob attended graduate school and professional seminars as part of the REU program, which culminated in a presentation to Columbia NSF-sponsored Research Experience for Undergraduates (REU) peers and researchers.

Young Scholar High School Research Programs

The CIAN Young Scholar High School Research Program occurs over the course of the summer (although students are also encourage to apply for the school year). Students have a unique opportunity to enter a top-tier research laboratory and encounter the research process first-hand. Placed with a mentor, the student pursues a designated project and develops a research poster to present his or her progress.

Learn more about the Young Scholar High School Research Program & how to apply.

Tuskegee

At Tuskegee University, four students in grades 10 to 12 from Booker T. Washington High School participated in the CIAN sponsored summer REH outreach program (Young Scholars Program) from June 8 to July 3, 2015. They conducted research on two projects at the Microelectronics Laboratory at Tuskegee University under the guidance of CIAN faculty Dr. Li Jiang, Dr. Naga Korivi and CIAN master’s and undergraduate students. Two reports and two posters were produced as a result of the research activities.

tuskegeeyoungscholar-editThe projects are, “Optical waveguides from 3D printed templates” under the supervision of undergraduate research assistant Alexis Pruitt and “Optical lens from 3D printed templates” under the supervision of undergraduate research assistant Steven Gaillard. The high school students received lab training from research associate Lamont Henderson and their project supervisors as well as many other training and educational opportunities provided by the program.

Columbia

Columbia hosted one Young Scholar High School Researcher student from Union County Academy of Information Technology. He spent the summer learning about the research process and participating in a research project in Dr. Gil Zussman’s laboratory under the mentorship of graduate and undergraduate students. His project focused on improving the design of a web-based tool for the dynamic presentation of simulation results. The project resulted in a demo that showcases routing in node and the hope is that in the future, there will b other discoveries made to connect the angular front-end to the node back-end of the website.

CalTech

CaltechYSCalTech’s Young Scholar’s program is newly implemented in the laboratory of Dr. Axel Scherer and branches off of success had with the CalTech Research Experience for Teachers (RET) program. Previous RET teacher, Keith Russell, brought his experience in the lab, Summer 2013, straight to his students in the classroom as well as carrying out regular visits with his students to the CalTech laboratories. This summer, two students of John Muir High School were selected to participate in the five-week program. Three weeks were spent doing labs now used in an undergraduate semiconductor fabrication course to give the students experience with nano-fabrication. For the last two weeks the students carried out their own research project.

As a final note, CIAN would like to thank the many faculty, staff, and students that make these programs possible. Without their dedication and drive these programs would not have such a significant impact across so many students and educators around the country. Thank you.

Where Did They Come From?

This summer’s participants came from all over the USA!

Yellow = CIAN Universities
Purple = REU Program
Orange = RET Program
Red = Young Scholar Program