№ lp_1_2_34437
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This job description outlines the role of a postdoctoral researcher in nonlinear quantum materials, focusing on phonon nonlinearity, nonlinear optics, and quantum transport.
Year:
Not specified
Region / City:
Bath, United Kingdom
Subject:
Nonlinear optics, quantum materials, computational physics
Document type:
Job description
Institution:
University of Bath
Author:
Not specified
Target audience:
Potential applicants for postdoctoral research position
Start date:
Not specified
End date:
Not specified
Price: 8 / 10 USD
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Year:
2021
Region / City:
University of the Philippines College of Law
Topic:
Education, Law
Document Type:
Worksheet
Organization / Institution:
University of the Philippines College of Law
Author:
Estelito R. Mendoza, Agustin, Gil, Sedilla, Vilamin, Aguado, Papang
Target Audience:
Students
Period of Validity:
February 16, 2021
Date of Approval:
February 16, 2021
Date of Changes:
Not provided
Year:
2023
Note:
Region / City
Theme:
Nonlinear systems analysis, frequency response measurement
Document type:
Lab manual
Target audience:
Students, engineers
Context:
A lab manual for performing analysis on nonlinear systems, including frequency response measurement and diode behavior in circuits.
Author:
Navaneeth Kumar Beeram
Academic Degree:
Master of Science
Field of Study:
Electrical and Electronic Engineering
Institution:
California State University, Sacramento
Department:
Department of Electrical & Electronics Engineering
Year:
2010
Term:
Spring 2010
Type of Work:
Master’s Project
Degree Requirement:
Submitted in partial satisfaction of the requirements for the degree of Master of Science
Committee Chair:
Russell Tatro, M.S.
Second Reader:
Preetham Kumar, Ph.D.
Graduate Coordinator:
Preetham Kumar, Ph.D.
Author’s Previous Degree:
BTech, Guru Nanak Engineering College, India, 2006
Software Used:
OPTSIM, MATLAB
Primary Topics:
Nonlinear effects in optical fiber, nonlinear dispersion, self phase modulation, cross phase modulation, four wave mixing, nonlinear Schrödinger equation, bit error rate, eye pattern analysis
Year:
2016
Region / city:
Lahore, Pakistan
Theme:
Nonlinear Analysis and Applications
Document Type:
Registration Form
Institution:
University of Management and Technology (UMT)
Author:
Dr. Sohail Zafar
Target Audience:
Speakers and participants of IWNAAP-2016
Registration Deadline:
July 23rd, 2016
Accommodation:
Required (YES/NO)
Contact Information:
Dr. Sohail Zafar, [email protected]
Note:
, +92-42-35212801-10
Date of Announcement:
2016
Date of Changes:
Not specified
Context:
Registration form for the International Workshop on Nonlinear Analysis and Applications (IWNAAP-2016) with details for accommodation, fees, and submission deadlines.
Year:
2022
Conference:
ICASSP
Title of Paper:
Adaptive Variational Nonlinear Chirp Mode Decomposition
Authors:
Xinghao Ding; Andreas Jakobsson; Xiaotong Tu; Yue Huang
Affiliations:
Xiamen University; Lund University
Field:
Signal Processing
Keywords:
Nonlinear chirp signal; Non-stationary signal analysis; Bayesian inference; Mode decomposition; Time-frequency representation; Expectation-Maximization algorithm
Methodology:
Bayesian adaptive variational framework with conjugate priors and iterative posterior estimation
Experiments:
Simulated two-component nonlinear chirp signal; Real-world baiji whistle signal
Application Areas:
Speech analysis; Fault diagnosis; Ocean signal analysis
Noise Assumption:
Independent zero-mean Gaussian noise
Code Availability:
Github Repositories
Year:
2025
Region / Country:
Ghana
Topic:
Child Health and Survival
Document Type:
Research Article
Institution:
University of Ghana / National Health Research Institute
Author:
Iddrisu & Boanyo
Target Audience:
Public Health Researchers, Policy Makers
Data Source:
Nationally representative household surveys
Sample Size:
34,663 under-five records
Methods:
Generalised Additive Model, Logit Link, Penalised Splines
Key Variables:
Fertility, Maternal Education, Postnatal Care, Household Factors
Objective:
Assessment of nonlinear determinants of under-five survival and model validation
Period of Study:
Up to 2025
Validation Metrics:
Discrimination (AUC), Calibration across deciles
Year:
2023
Region / City:
Mainz, Germany
Subject:
Nonlinear Differential Equations
Document Type:
Academic Article
Organization / Institution:
Institute of Mathematics, Johannes Gutenberg-University of Mainz
Author:
Burcu Yıldırım
Target Audience:
Researchers, Mathematicians
Approval Date:
Not specified
Modification Date:
Not specified
Year:
2026
Region / City:
Shanghai, China
Field:
Nonlinear optics, photonics
Document type:
Supporting information for research article
Institution:
Shanghai University, Shanghai Institute of Technical Physics, University of Chinese Academy of Sciences
Authors:
Lei Yan, Ziyao Gong, Qinyong He, Dechao Shen, Anping Ge, Ye Dai, Guohong Ma, Liaoxin Sun, Saifeng Zhang
Target audience:
Researchers in physics and photonics
Polarization angles analyzed:
0°–345°
Experimental focus:
Nonlinear optical absorption and relaxation times of Ta2NiS5 flakes
Data representation:
Tables of absorption parameters and relaxation times, figures of differential transmission signals
Event:
Unit 5 Colloquium Series and OCANA Seminar Series
Institution:
I. K. Barber School of Arts & Sciences, UBC Okanagan
Speaker:
Zhaosong Lu
Affiliation:
Department of Mathematics, Simon Fraser University
Date:
February 27
Time:
14:30–15:30
Location:
COCANA CoLab ASC 301A, UBC Okanagan
Subject Area:
Mathematical Optimization, Nonlinear Programming, Machine Learning
Type of Document:
Academic Seminar Announcement
Host Contact:
Dr. Warren Hare
Contact Email:
[email protected]
Audience:
General public and academic community
Additional Information:
Coffee and cookies served
Year:
2022
Region / city:
International
Topic:
Telecommunications, Quantum Key Distribution
Document type:
Technical Report
Organization / institution:
International Telecommunication Union (ITU)
Author:
International Telecommunication Union (ITU)
Target audience:
Telecommunications experts, ICT professionals
Period of validity:
Not specified
Approval date:
20 May 2022
Date of changes:
Not specified
Year:
2021
Region / City:
Virtual
Topic:
Quantum Key Distribution, Telecommunication Standardization
Document Type:
Liaison Statement
Organization / Institution:
International Telecommunication Union (ITU)
Author:
ITU-T Working Party 3/13
Target Audience:
ITU-T SG2, ITU-T SG11, ITU-T SG15, ITU-T SG17, ETSI ISG-QKD, ISO/IEC JTC1/SC27 and AG4, IRTF QIRG and IETF Opsawg
Period of Validity:
N/A
Approval Date:
16 July 2021
Date of Modifications:
N/A
Contact:
Gyu Myoung LEE
Context:
This is a liaison statement reporting on the progress of Quantum Key Distribution (QKD) network standardization activities in SG13, including updates on various draft recommendations and supplements.
Year:
2025
Region / City:
Ahmedabad, Gujarat
Theme:
Quantum Science and Technology
Document Type:
Conference Program
Organization:
Gujarat Council on Science & Technology (GUJCOST), Department of Science and Technology, Government of Gujarat
Author:
Not specified
Target Audience:
Scientists, Educators, Science Communicators, Researchers, Students
Event Date:
22-23 December 2025
Approval Date:
Not specified
Revision Date:
Not specified
Year:
2021
Region / city:
Kolkata
Subject:
Quantum mechanics, Quantum communication, Quantum key distribution
Document type:
Research Presentation
Institution:
S. N. Bose National Centre for Basic Sciences, QuNu Labs Pvt Ltd
Author:
Shashank Gupta
Target audience:
Researchers, Quantum communication scientists
Period of validity:
Not specified
Approval date:
Not specified
Date of changes:
Not specified
Year:
2025
Region / City:
Geneva
Topic:
Quantum Key Distribution Networks, Protocol Framework
Document Type:
Draft Recommendation
Organization / Institution:
International Telecommunication Union (ITU)
Author:
Editors
Target Audience:
Telecommunication and Quantum Computing Professionals
Period of Validity:
2025-2028
Approval Date:
19-28 Feb 2025
Modification Date:
N/A
Year:
2020
Region / City:
Lusaka
Subject:
Legal Appeal
Document Type:
Press Release
Organization / Institution:
ZCCM Investments Holdings Plc
Author:
Loisa Mbatha-Kakoma
Target Audience:
General Public
Period of Action:
Ongoing (since 2016)
Date of Approval:
23rd March 2020
Date of Changes:
None
Year:
2023
Region / City:
International
Topic:
Quantum networks
Document Type:
Technical Report
Organization / Institution:
International Telecommunication Union (ITU)
Author:
ITU-T
Target Audience:
Researchers and professionals in the field of quantum networks and telecommunications
Period of validity:
Not specified
Approval Date:
November 2023
Date of modifications:
Not specified
Year:
2024
Region / City:
Global
Topic:
Post Quantum Cryptography, Telecom Industry
Document Type:
Liaison Statement
Author:
Yolanda Sanz, GSMA
Target Audience:
3GPP, ETSI, ITU-T, CEN/CENELEC, IETF, CNCF, Linux Foundation Networking, ATIS, IEEE
Period of validity:
Until February 2024
Approval Date:
16 January 2024
Date of Changes:
N/A
Year:
2023
Region / City:
Geneva
Subject:
Quantum Key Distribution, Networking, Telecommunications
Document Type:
Liaison Statement
Organization:
ITU-T SG13
Author:
ITU-T SG13
Target Audience:
ITU-T SG2, SG11, SG15, SG17, ITU-T JCA-QKDN, ETSI ISG-QKD, ISO/IEC JTC1/SC27, WG14 and AG4, IRTF QIRG, IETF Opsawg
Approval Date:
3 November 2023
Amendment Date:
N/A
Deadline:
N/A
Contact:
Gyu Myoung LEE, Taesang Choi, Kazunori Tanikawa
Description:
This document provides an update on the progress of Quantum Key Distribution (QKD) network development in SG13, including recent recommendations, technical reports, and ongoing work on QKD networks and their interworking with other systems.
Year:
2023
Region / City:
Geneva
Theme:
Quantum Key Distribution (QKD) Networks
Document Type:
Liaison Statement
Organization:
ITU-T Study Group 13
Author:
ITU-T Study Group 13
Target Audience:
ITU-T SG2, SG11, SG15, SG17, ITU-T JCA-QKDN, ETSI ISG-QKD, ISO/IEC JTC1/SC27, WG14 and AG4, IRTF QIRG and IETF Opsawg
Approval Date:
24 March 2023
Period of Activity:
2023
Date of Changes:
N/A
Year:
2023
Region / City:
Global
Theme:
Post Quantum Cryptography, Telco Industry
Document Type:
Whitepaper
Organization / Institution:
GSMA
Author:
Yolanda Sanz, GSMA
Target Audience:
Telecommunications industry professionals, standardization bodies, governmental organizations
Effective Period:
2023–2025
Approval Date:
06 March 2023
Date of Changes:
Not specified