1
bidang keilmuan
FISIKA TEKNIK
(engineering physics)
Fakultas Teknologi Industri
Institut Teknologi Bandung
2009
0
TOPIK BAHASAN
Bidang Keilmuan (Body of Knowledge)
2. Akademik & Kurikulum
3. Sumber Daya, Mahasiswa & Alumni
1.
1
ENGINEERING PHYSICS
Fisika Teknik
Teknik Fisika
2
What is Engineering Physics ?
ENGINEERING PHYSICS
PROGRAM
ENGINEERING DEGREES WITH A
FOCUS ON PHYSICS, ENGINEERING
SCIENCES AND MATHEMATICS
3
What is Engineering Physics ?
Engineering Physics is primarily for the student with a strong
interest in and aptitude for engineering science and
mathematics and the desire to apply these disciplines to
technical problems without regard to formal or historical
boundaries between various fields of engineering and physics.
Mathematics, Physics
& Engineering Sciences
? ? ? ? ? ? @$#&^$
??
??
??
?
4
ENGINEERING PHYSICS EDUCATION
Engineering Physics Education aims to produce Sarjana Teknik
with strength in basic science especially in Physics and
Mathematics as well as Engineering Science, therefore the
graduates are capable :

to move across the border lines of basic sciences and engineering
science or, engineering science and applied engineering

to take roles in the development of physics based technology

to bridge new concept in physics and its application that makes
R&D process becomes more efficient

to accelerate the cultivation of new technology for which engineering
science often labeled as frontier engineering
This background prepares students for careers in engineering, applied
science or applied physics with positions in industry, national research
laboratories, universities or even as technological entrepreneurs.
5
Knowledge Area for Engineering Physics
Stream of Technology Development
Engineering Physics
Basic
Science
Knowledge
creation
Engineering
Science
Technology
creation
Applied
Engineering
INDUSTRY
Feedback
from industry
Technology
Development/Application
6
Engineering Physics : Field of Study


Non Conventional Engineering Education 
General Engineering (ref. : ABET criteria)
Different Focus Area
• Material Science & Engineering
•Energy System & Management
• Biomedical Engineering
• Instrumentation & Control
• Lighting Engineering
Engineering Physics
• Nuclear Engineering
• Optics and Laser
•Optoelectronics
• Building Physics
• Built Environment
• Acoustics Engineering
• Nano Science & Engineering
7
Engineering Physics : Field of Study
Engineering Physics in Indonesia
TF-ITB
• Instrumentation & Control
• Building Physics and Acoustics
• Computational and Process Materials
• Optics and Laser
TF-ITS
TF-UGM
• Instrumentation Engineering
• Building Physics and Acoustics Engineering
• knowledge
improvement
• Material Engineering
• Energy and Environmental Engineering
• Optics and Laser
• concept
development
• Nuclear Engineering
• Engineering Physics
TF-UNAS
• Instrumentation Engineering
• Building Physics
• Environmental Engineering
• modeling
• technology
creation
• industrial
application
TF- ITT
8
Engineering Physics : Field of Study

Mc Master University – Canada





Cornell University – USA





Photonics, Micro-electro-mechanical systems (MEMS)
Mechatronics, Nano-system engineering
Nuclear engineering, Sustainable energy systems
Optoelectronics, Semiconductor devices, Biophotonics
Nanoscience & Nanobiotechnology
Condensed Matter Physics and Materials Science
Optical Physics, Quantum Electronics and Photonics
Biophysics, Astrophysics and Plasma Physics, Atomic, Molecular and
Chemical Physics
Princeton University – USA
 Energy, environment, materials, microelectronics and photonics

Tsing Hua University
 Nuclear Engineering
Engineering Physics in the world
9
ENGINEERING PHYSICS
Institut Teknologi Bandung
10
ENGINEERING PHYSICS ITB : Historical Background
Global : post industrial
revolution era
global and
domestic issues
External
Demands
graduate’s
knowledge and
competence
requirement
Internal
Development
EP - ITB
Global : energy
issues with nuclear
fusion as one of
energy alternatives
Indonesia : early
independence era with
rapid development in
infrastructure including
buildings and housing
industries
Indonesia : early
industrial
development in oil
and gas industries
Engineering :
expertise in building
design, construction
and utility
Engineering :
expertise in process,
oil & gas industries
Engineering science :
building physics, indoor
and outdoor tropical
climate as well as
human comfort
Engineering
science : industrial
instrumentation,
nuclear engineering
‘50s
‘60s
‘70s
Global : Global job market
and knowledge based
economy
Global : digital and information
technology
Indonesia : rapid manufacturing
industrial development in various
areas including aviation
Engineering : expertise in
electronics and digital technology
& communication
Engineering science :
instrumentation and control,
room acoustics and noise
control, medical instrumentation,
optics
‘80s
Indonesia : economic
crisis. Set back in
industrial development
and lagging in technology
advancement
Engineering : advance
information and
communication based
technology.
Engineering science :
interdisciplinary
knowledge with in-depth
comprehension in
engineering science
‘90s
2000
Body of Knowledge :
Body of Knowledge :
Body of Knowledge :
Body of Knowledge :
Physics and
Mathematics
Industrial Instrument.
Instrument. and control
Instrument., control & automation
Building Physics
Thermal Science
Building Physics and
Acoustics
Building Physics
Building Physics
Material Science
Thermal Environ. Eng.
Acoustics & Noise Control
Nuclear Science &
Engineering
Material Science
Energy Utilization & Conservation
Nuclear Science & Eng.
Computational & Process Material
Thermal Environ Eng.
Measurement and
Calibration
Indoor & Outdoor Lighting
11
ENGINEERING PHYSICS ITB : Historical Background
Global : Global job market
and knowledge based
economy, global warming and
energy crisis.
global and
domestic issues
Indonesia : democratic era,
food & energy security, safety
– health – environment issues
Engineering : advance
information and
communication based
technology, renewable
energy
External
Demands
graduate’s
knowledge and
competence
requirement
Internal
Development
EP - ITB
Engineering science :
interdisciplinary
knowledge with in-depth
comprehension in
engineering science
2000
NOW
Body of Knowledge :
Instrument., control and automation
Built Environment
Safety, Health & Environment Tech
Acoustics & Noise Control
Energy Utilization & Conservation
Computational & Process for new
functional Material
12
ENGINEERING PHYSICS ITB : timeline

Pendidikan sarjana Fisika Teknik berdiri tahun 1950, atas
prakarsa ketua Fakulteit Teknik Universitas Indonesia Prof. Dr.
Ir A. Nawijn seorang ahli Fisika Teknik (natuurkundig ingeniur)
dan Ir. M.U. Adhiwijogo (sarjana Teknik Sipil) dengan nama
Natuurkundig Ingeniur Afdeling.
13
ENGINEERING PHYSICS ITB : timeline

Pada tahun 1959 pendidikan Fisika Teknik diberi nama Bagian
Fisika Teknik yang tergabung dalam Departemen Fisika/
Fisika Teknik, dengan ketua Prof Ir. M.U. Adhiwijogo.
Prof. M. U. Adhiwijogo (Go Pok Oen) (1910 – 1974)
Pelopor bidang Fisika Bangunan di Indonesia
Pendidikan :
1935
Pekerjaan :
1950
1950/1965
1957
1970
Sarjana Teknik Sipil ITB
Mendirikan Fisika Teknik ITB
Ketua Jurusan/Bagian Fisika Teknik ITB
Guru Besar Fisika Teknik ITB
Pendiri Lembaga
Instrumentasi Nasional (LIN) LIPI
14
ENGINEERING PHYSICS ITB : timeline

Pada tahun 1963, Bagian Fisika Teknik menjadi bagian dari
Departemen Fisika Teknik dan Teknologi Kimia.
15
ENGINEERING PHYSICS ITB : timeline

Pada tahun 1972, Bagian Fisika Teknik menjadi Departemen
Fisika Teknik, salah satu departemen di bawah Fakultas
Teknologi Industri.

Pada tahun 1983, Departemen Fisika Teknik berubah nama
menjadi Jurusan Teknik Fisika.
16
ENGINEERING PHYSICS ITB : timeline

Pada tahun 1990, dibuka program studi Magister (S2)
Instrumentasi dan Kontrol dibawah pengelolaan Departemen
Teknik Fisika ITB.
17
ENGINEERING PHYSICS ITB : timeline

Pada tahun 2001, nama Jurusan Teknik Fisika berubah
menjadi Departemen Teknik Fisika.

Program Studi Teknik Fisika diselenggarakan oleh Departemen
Teknik Fisika dengan kurikulum nasional yang ditetapkan oleh
Menteri Pendidikan dan Kebudayaan1995.
18
ENGINEERING PHYSICS ITB : timeline

Pada tahun 2003 dibuka Magister (S2) Teknik Fisika, yang
memiliki opsi keahlian




Otomasi Proses Industri
Fisika Bangunan
Disain Tata Cahaya
Komputasi dan Proses Material
Pada tahun ini juga dibuka program Doktor (S3) Teknik Fisika
 Pada tahun 2006, perubahan organisasi ITB dengan unit
terkecil adalah fakultas, dimana program studi Teknik Fisika
(S1, S2 & S3) serta program studi Instrumentasi & Kontrol
(S2) langsung di bawah Fakultas Teknologi Industri
19
ENGINEERING PHYSICS ITB :
Institut Teknologi Bandung
Faculty / School
Faculty / School
Chemical Engineering
Engineering Physics
Industrial Engineering
Other Study Programs
Research Group
Study Program
Faculty of Industrial Technology
Research Group A…
Research Group B…
Instrumentation & Control Research Group
Other Research Group
2006 : Program Studi Teknik Fisika berada di dalam Fakultas Teknologi Industri
20
FIELD OF STUDY
Instrumentation & Control
Built Environment & Energy System
Material Science & Engineering
21
INSTRUMENTATION & CONTROL

Instrumentation is a science and engineering deals with a
system used for detecting, measuring, monitoring and
controlling the quantities or physical properties thus
including identifying, optimizing and the like.

Control engineering is the engineering discipline that focuses
on mathematical modeling of systems of a diverse nature,
analyzing their dynamic behavior, and using control theory
to create a controller that will cause the systems to behave
in a desired manner
Instrumentation
& Control
Industrial & medical
applications
22
INSTRUMENTATION & CONTROL
Images
INFORMATION
 Identification
 Modeling & Simulation
 Optimization
Graphics
 Control
Numerical
Data
Data Processing &
Computation
Actuator
Measurement & Data
Acquisition Systems
Physical Phenomena
23
INSTRUMENTATION & CONTROL
24
INSTRUMENTATION & CONTROL
Ex. :
Industrial Instrumentation System
Ultrasonic Flowmeter
25
INSTRUMENTATION & CONTROL
Ex. :
Medical Instrumentation
Ultrasonography
26
27
INSTRUMENTATION & CONTROL
Ex. :
Optical Instrumentation
Perangkat
optik
laser
Tabung
Proses
Larutan
Perangkat
Elektronik
Operator
Optical based sensors
and measuring system
Sensor
Sistem
Kontrol*
Image processing using
optical devices
Development of 3 D surface profile
measurement technique
28
BUILT ENVIRONMENT AND
ENERGY SYSTEM
29
BUILT ENVIRONMENT & ENERGY SYSTEM

Built Environment is a Science and Engineering deal with
multi modes physical phenomena (physical properties such
as thermal, acoustic and lighting) for human comfort and
industrial application

Energy System is a science and engineering deal with a
system used for energy generation, supplying, distribution
and conservation in a building and industries
Built Environment
Energy System
30
BUILT ENVIRONMENT & ENERGY SYSTEM
Noise Control
Architectural
Acoustics
Acoustic Signal Processing
silence
unvoiced
voiced
ACOUSTICS
Acoustics
Computational &
Modeling
Music & Sound System
Physiological &
Psychological Acoustics
31
BUILT ENVIRONMENT & ENERGY SYSTEM
Green Building &
Energy Conservation
SPEECH INTELLIGIBILITY
Architectural
Acoustics
SOUND PERCEPTION
SOUND REINFORCEMENT
SOUND WAVE PHENOMENA
DESIGN CRITERIA
RECORDING & BROADCASTING
STUDIO
32
MATERIAL SCIENCE AND
ENGINEERING
33
MATERIAL SCIENCE & ENGINEERING

Material Science and Engineering deal with physical
properties and phenomena for developing, designing,
processing and constructing a new functional material
Material Design and Computation
Material Processing
Ceramic Material
Magnetic Material
Composite Material
Nanotechnology, etc
34
MATERIAL SCIENCE & ENGINEERING
Metallurgy

Metal Material

Solar cell CdS

Fuel cell Carbon Porous





Moleculer Dynamics
Magnetism & Magnetic material’s
Fine Ceramic (PZT base material’s)
Thin film processing
Crystal Growing
35
MATERIAL SCIENCE & ENGINEERING

Computational Materials : Simulation in Molecule Dynamics

Prosess Material
 Fine Ceramic (zirconia base materials)
 Bahan sensor (sensor gas)
 Magnetic substabce
During the next 10 years
Excellence Research Topic
Simulation on molecule
dynamics and production
process of nano-claypolymer composite
36