Carnegie Mellon Univ
Postdoctoral Position in Advanced Light Source
Carnegie Mellon Univ, Berkeley, California, United States, 94709
Carnegie Mellon University: Mellon College of Science: Physics
Location
Open Date
Jul 10, 2024 Description
This postdoctoral appointment is for the study of electronic properties of two-dimensional materials and heterostructures and is under the direction of Prof. J. Katoch at Carnegie Mellon University (CMU). The postdoc will be based at the Advanced Light Source (ALS) in Berkeley, CA, and will directly collaborate with scientists at CMU, The Ohio State University (OSU), and collaborators at ALS and elsewhere. The successful candidate shall lead spectromicroscopy measurements at the Advanced Light Source under the supervision of Dr. E. Rotenberg and Dr. A. Bostwick, and will work hand-in-hand with team members around the world for the design, fabrication, and measurement of two-dimensional heterostructure devices. The goal of this position is to explore the electronic structure and many-body interactions of electrons in 2D heterostructure devices, having applied fields and currents. These effects are manifested in the electronic band structure, in the chemical bonds, or in the spin structure of materials, and in spatial inhomogeneities of these properties. Measurements will be obtained using tools such as nanoprobe angular photoemission spectroscopy (nanoARPES), x-ray absorption spectroscopy, x-ray magnetic circular dichroism, and low energy electron microscopy combined with photoelectron emission microscopy (LEEM/PEEM). The postdoc is encouraged to incorporate other techniques (e.g. spectroscopy, scattering, or x-ray and electron transmission microscopy techniques) at ALS and the Molecular Foundry through collaborations and general user proposals. The postdoc will plan and perform experiments and analyze data using state-of-the-art tools as well as extend these capabilities as needed. The postdoc will attend scientific meetings, present results, and prepare publications to advance the field. Duties/Responsibilities Use microscopic band structure mapping and statistical methods to quantify heterogeneity in quantum materials. Occasionally expand experimental instrumentation or analysis techniques as needed, and participate in hands-on tasks to ensure high-quality measurements. Write proposals to ALS and other user facilities for use of advanced instrumentation. Publish work in peer-reviewed scientific literature. Present work at group meetings and national conferences. Take an active role in coordinating among project partners and initiating new connections within the project. Participate or lead in sample and device fabrication. Collaborate with scientists participating in the project. Work in a safe and healthy manner. Be respectful and inclusive in interactions with others and respect diversity. Salary Range:
Between $59,000-$66,000, depending on level of experience. Qualifications
Interest in the basic materials science of low-dimensional materials. PhD in Physics, Chemistry, Materials Science, or a related field. General understanding of the principles of x-ray based techniques (instrumentation, measurements, and interpretation) such as XPS, XAS/XMCD, and x-ray scattering. Detailed understanding and experience in ARPES. Experience with general ultra-high vacuum instrumentation. Strong publication record in peer-reviewed international scientific journals, with experience in the preparation and publication of scientific papers. Experience in sample preparation techniques such as epitaxial growth, micromechanical exfoliation, and micromechanical transfer for analysis of single layers and heterostructures or crystal growth. Experience in complementary characterization techniques such as electronic transport, electron microscopy, magnetometry, and Raman spectroscopy. Experience in device fabrication using lithography methods and measurement of transport properties. Experience in low-temperature experimental methods. Basic knowledge of a programming language. Basic engineering experience. Application Instructions
Application to this position must include a professional vita, or resume including a list of publications, and the names and contact information for three referees who will submit letters of recommendation. Application Process
This institution is using Interfolio's Faculty Search to conduct this search. Applicants to this position receive a free Dossier account and can send all application materials, including confidential letters of recommendation, free of charge. Carnegie Mellon University
shall abide by the requirements of 41 CFR §§ 60-1.4(a), 60-300.5(a) and 60-741.5(a). These regulations prohibit discrimination against qualified individuals based on their status as protected veterans or individuals with disabilities, and prohibit discrimination against all individuals based on their race, color, religion, sex, or national origin. Moreover, these regulations require that covered prime contractors and subcontractors take affirmative action to employ and advance in employment individuals without regard to race, color, religion, sex, national origin, protected veteran status or disability.
#J-18808-Ljbffr
Location
Open Date
Jul 10, 2024 Description
This postdoctoral appointment is for the study of electronic properties of two-dimensional materials and heterostructures and is under the direction of Prof. J. Katoch at Carnegie Mellon University (CMU). The postdoc will be based at the Advanced Light Source (ALS) in Berkeley, CA, and will directly collaborate with scientists at CMU, The Ohio State University (OSU), and collaborators at ALS and elsewhere. The successful candidate shall lead spectromicroscopy measurements at the Advanced Light Source under the supervision of Dr. E. Rotenberg and Dr. A. Bostwick, and will work hand-in-hand with team members around the world for the design, fabrication, and measurement of two-dimensional heterostructure devices. The goal of this position is to explore the electronic structure and many-body interactions of electrons in 2D heterostructure devices, having applied fields and currents. These effects are manifested in the electronic band structure, in the chemical bonds, or in the spin structure of materials, and in spatial inhomogeneities of these properties. Measurements will be obtained using tools such as nanoprobe angular photoemission spectroscopy (nanoARPES), x-ray absorption spectroscopy, x-ray magnetic circular dichroism, and low energy electron microscopy combined with photoelectron emission microscopy (LEEM/PEEM). The postdoc is encouraged to incorporate other techniques (e.g. spectroscopy, scattering, or x-ray and electron transmission microscopy techniques) at ALS and the Molecular Foundry through collaborations and general user proposals. The postdoc will plan and perform experiments and analyze data using state-of-the-art tools as well as extend these capabilities as needed. The postdoc will attend scientific meetings, present results, and prepare publications to advance the field. Duties/Responsibilities Use microscopic band structure mapping and statistical methods to quantify heterogeneity in quantum materials. Occasionally expand experimental instrumentation or analysis techniques as needed, and participate in hands-on tasks to ensure high-quality measurements. Write proposals to ALS and other user facilities for use of advanced instrumentation. Publish work in peer-reviewed scientific literature. Present work at group meetings and national conferences. Take an active role in coordinating among project partners and initiating new connections within the project. Participate or lead in sample and device fabrication. Collaborate with scientists participating in the project. Work in a safe and healthy manner. Be respectful and inclusive in interactions with others and respect diversity. Salary Range:
Between $59,000-$66,000, depending on level of experience. Qualifications
Interest in the basic materials science of low-dimensional materials. PhD in Physics, Chemistry, Materials Science, or a related field. General understanding of the principles of x-ray based techniques (instrumentation, measurements, and interpretation) such as XPS, XAS/XMCD, and x-ray scattering. Detailed understanding and experience in ARPES. Experience with general ultra-high vacuum instrumentation. Strong publication record in peer-reviewed international scientific journals, with experience in the preparation and publication of scientific papers. Experience in sample preparation techniques such as epitaxial growth, micromechanical exfoliation, and micromechanical transfer for analysis of single layers and heterostructures or crystal growth. Experience in complementary characterization techniques such as electronic transport, electron microscopy, magnetometry, and Raman spectroscopy. Experience in device fabrication using lithography methods and measurement of transport properties. Experience in low-temperature experimental methods. Basic knowledge of a programming language. Basic engineering experience. Application Instructions
Application to this position must include a professional vita, or resume including a list of publications, and the names and contact information for three referees who will submit letters of recommendation. Application Process
This institution is using Interfolio's Faculty Search to conduct this search. Applicants to this position receive a free Dossier account and can send all application materials, including confidential letters of recommendation, free of charge. Carnegie Mellon University
shall abide by the requirements of 41 CFR §§ 60-1.4(a), 60-300.5(a) and 60-741.5(a). These regulations prohibit discrimination against qualified individuals based on their status as protected veterans or individuals with disabilities, and prohibit discrimination against all individuals based on their race, color, religion, sex, or national origin. Moreover, these regulations require that covered prime contractors and subcontractors take affirmative action to employ and advance in employment individuals without regard to race, color, religion, sex, national origin, protected veteran status or disability.
#J-18808-Ljbffr