Example: dental hygienist

Radiation Physics Note / 放射線物理ノート

2018. 12. 25 1 ~ ~ (electromagnetic wave) electromagnetic Radiation (particles) corpuscular Radiation charged particles uncharged particles --- ( ionizing Radiation )

【 】線(ionizing radiation) ・【 】線(directly ionizing radiation) 荷電粒子線 重粒子線、α線、β線、電子線など ・【 】線(indirectly ionizing radiation) 非荷電粒子線 中性子線など 電磁放射線(エネルギーの高いもの) エックス線、γ線、消滅放射線など 【 】線(non ...

Fullscreen Download

Tags:

  Radiation, Ionizing, Ionizing radiation

Information

Domain:

Source:

Link to this page:

Please notify us if you found a problem with this document:

Other abuse

Advertisement

Transcription of Radiation Physics Note / 放射線物理ノート

1 2018. 12. 25 1 ~ ~ (electromagnetic wave) electromagnetic Radiation (particles) corpuscular Radiation charged particles uncharged particles --- ( ionizing Radiation )

2 Directly ionizing Radiation indirectly ionizing Radiation (non- ionizing Radiation ) ( ) ( ) ( 2 2018. 12. 25 3 2018. 12. 25 c 1 108m 107m 108 107 /s Hz E h h c/ 10-25[J m]/ [eV m]/ [keV ]/ Duane-Hunt eV V 10-19[C] [V] 10-19[J] 4 30 km c 1 1 1 1 m LED ~ 2018.)

3 12. 25 X Wilhelm Conrad R ntgen 1895 11 8 Crookes X 10-8 10-14m 108m/sec = (m) (sec-1) ( 108m /sec) = (J) ( 10-34J sec)

4 5 2018. 12. 25 6 2018. 12. 25 CT E=kZIV2t k (= 10-9) I 1% 99% 19 (74W) CBCT CT 1mmAl 70kV (15cm ) 7 2018.

5 12. 25 8 2018. 12. 25 ][ ][ ][ ]/[ ][ min Duane-Hunt min Vmax= min Vmax kV KLILIILIII1 3p M 3s M [keV]9 (1991/3 2018. 12. 25 Kramers 1959 K 60kV K K 70kV K K 15 30keV 511keV 2 ======================================== =================)

6 IP 10 2018. 12. 25 I0 I I=I0e- d kZ3 3 --- Z / ex. 11 (1991/3 (2007/2) X 2018. 12. 25 Zeff Zeff Evans, 1955 (Attix, and Roesch, , eds.))

7 : Radiation Dosimetry. Vol. I : Fundamentals. Academic Press Inc., New York, 1968.) c= : Z=125*E3/2-3 c= : Z=1900/( +6)+2 12 2018. 12. 25 = = 3~4 = = 3~4 14 7=143~473~4=23~4=8~16 D1 D1 D2 1/4 D1 Hc=D1/D2 Hc<1 D2/D1 I=I0e- d cf. IP 13 2018.

8 12. 25 exposure, X [C/kg] X=dQ/dm dQ dm Kerma, K Gy [J/kg] K=dE/dm dm absorbed dose, D Gy [J/kg] D=de/dm de dm equivalent dose, HT Sv [J/kg] HT= wR DT,R DT,R T R wR HT R wR DT,R Effective Dose, E Sv [J/kg] E= wT HT wT X [C/kg]X, exposure R 1R= D Gy[J/kg] absorbed dose rad HT Sv[J/kg] equivalent dose rem HT= wR DT RwR : E Sv[J/kg] effective dose rem E= wT HTwT : A Bq[ / ] activity Ci1Sv=100rem 1Gy=100rad WR=1 14 D=HT 2018.

9 12. 25 (dt) (dN) -dN/dt Bq [1/sec] (RI) --- --- --- EC: Electron Capture --- (IT: Isomeric Transition) N=N0e- t N:t N0 t=0 T: N=1/2N0 T tAA0A0/2 TtAA0A0/2T Tp Tb Teff 15 2018. 12. 25 1 =1 +1 1 = + GM TLD 16 2018.

10 12. 25 1 10 GM ( :Ar RPL OSL, PSL TLD RPLR adio Photo LuminescenceOSLO ptically Stimulated LuminescencePSLP hoto Stimulated Luminescence --- IP TLDT hermo Luminescence Dosimeter ICRU International Commission on Radiation Units and Measurements ICRP International Commission on Radiological Protection UNSCEAR United Nations Scientific Committee on Effects of Atomic Radiations IARC International Agency for Research on Cancer IAEA International Atomic Energy Agency 1895 1896)

Show more

Documents from same domain

Radiation Physics/ 放射線物理学 - dent.niigata-u.ac.jp

Radiation Physics/ 放射線物理学 - dent.niigata-u.ac.jp

www5.dent.niigata-u.ac.jp

新潟大・歯・顎顔面放射線学分野西山講義資料 2 物質の構成 細胞 分子 (タンパク質等) 人間 物質 原子 核子-- -----+ + + + + + +

  Dent, Niigata, Niigata u

15分で分かる(?)MRI - dent.niigata-u.ac.jp

15分で分かる(?)MRI - dent.niigata-u.ac.jp

www5.dent.niigata-u.ac.jp

新潟大・歯・西山 15分で分かる(?)MRI 古典力学的説明※1 MRI原理へのいざない Part 1 1個のプロトンから15分単位で理解できる(?

  Dent, Niigata, Niigata u

電磁波の周波数、波長 ... - dent.niigata-u.ac.jp

電磁波の周波数、波長 ... - dent.niigata-u.ac.jp

www5.dent.niigata-u.ac.jp

新潟大・院歯・顎放 2011.12.26 Ver. 1.0, 改訂:2016.12.09 Ver. 2.3 電磁波の周波数、波長、エネルギー 物質の大きさとの相対比較

  Niigata, Niigata u

歯科撮影法1(口内法) - dent.niigata-u.ac.jp

歯科撮影法1(口内法) - dent.niigata-u.ac.jp

www5.dent.niigata-u.ac.jp

歯科撮影法1(口内法) 口腔生命科学各論II 2017/10/13 歯科放射線学 担当:西山秀昌 穴埋め解答 http://www5.dent.niigata-u.ac.jp/~nisiyama/intraoral-ans.pdf

  Dent, Niigata

電磁波の周波数、波長 ... - dent.niigata-u.ac.jp

電磁波の周波数、波長 ... - dent.niigata-u.ac.jp

www5.dent.niigata-u.ac.jp

新潟大・院歯・顎放 2011.12.26 Ver. 1.0, 改訂:2018.10.07 Ver. 3.4 電磁波の周波数、波長、エネルギー 物質の大きさとの相対比較

歯学科 年生講義,歯科放射線学 腫瘍の画像診断(顎骨の腫 …

歯学科 年生講義,歯科放射線学 腫瘍の画像診断(顎骨の腫 …

www5.dent.niigata-u.ac.jp

2) 歯牙腫,複雑型(複雑性歯牙腫)Complex odontoma (臨)10~20代でみられ、男性にやや多く、大きなものでは骨膨隆や歯の移動を生じる。上顎よりも下 顎に多く、下顎臼歯部に好発し全体の約半数を占める。

  Odontoma

摂食嚥下評価表 Ver.2015/12/03 ID

摂食嚥下評価表 Ver.2015/12/03 ID

www5.dent.niigata-u.ac.jp

摂食嚥下評価表 Ver.2015/12/03. ID 嚥下ID 検査日 名前 性別 生年月日 原疾患

15分で分かる(?)MRI - 新潟大学歯学部

15分で分かる(?)MRI - 新潟大学歯学部

www5.dent.niigata-u.ac.jp

新潟大・歯・西山 15分で分かる(?)MRI 古典力学的説明 MRI原理へのいざないPart 3-2 1個のプロトンから15分単位で理解できる(?

CT - 新潟大学歯学部

CT - 新潟大学歯学部

www5.dent.niigata-u.ac.jp

3 ・白~黒のグレースケール:256階調(8bit)→どの範囲を濃淡表示するかを決定する ・軟組織を主体に見る場合:例・ウィンドウ幅300・ウィンドウ値50→CT値−100より低い

Related documents

Detecting and measuring ionizing radiation - a short history

Detecting and measuring ionizing radiation - a short history

www.iaea.org

Ionizing radiation causes neutral atoms or molecules to acquire either a positive or negative electrical charge. The most commonly known types of ionizing radiation are alpha, beta, gamma, X, and neutron rays. Charged-particle radiation, such as alpha or beta rays, has a direct ionizing effect; whereas neutral radiation,

  Radiation, Ionizing, Ionizing radiation

The DOE Ionizing Radiation Dose Ranges Chart - Energy

The DOE Ionizing Radiation Dose Ranges Chart - Energy

www.energy.gov

Ionizing Radiation. Ionizing radiation is radiation that carries sufficient energy to release one or more electrons from their accustomed positions in atoms in matter through which it is traveling. Upon loss of one or more of its electrons, the atom is said to be ionized. The electrons and atoms may immediately recombine, and most do recombine,

  Radiation, Ionizing, Ionizing radiation

Non-Ionizing Radiations – Sources, Biological Effects ...

Non-Ionizing Radiations – Sources, Biological Effects ...

www.who.int

Non-Ionizing radiation (NIR) refers to radiative energy that, instead of producing charged ions when passing through matter, has sufficient energy only for excitation. Nevertheless it is known to cause biological effects. The NIR spectrum is divided into two main regions, optical radiations and electromagnetic fields. ...

  Radiation, Ionizing, Ionizing radiation, Non ionizing radiations

3. SUMMARY OF HEALTH EFFECTS OF IONIZING RADIATION

3. SUMMARY OF HEALTH EFFECTS OF IONIZING RADIATION

www.atsdr.cdc.gov

Ionizing radiation is a form of radiation with sufficient energy to remove electrons from their atomic or molecular orbital shells in the tissues they penetrate (Borek 1993). These ionizations, received in sufficient quantities over a period of time, can result in tissue damage and disruption of cellular function

  Radiation, Ionizing, Ionizing radiation

Biological Effects of Ionizing Radiation

Biological Effects of Ionizing Radiation

www.wright.edu

Ionizing radiation in very high levels is known to increase the incidence of cancer, birth anomalies, erythema, and other problems. In low levels, these effects are either very, very small compared to natural incidences or non-existent depending on the biological model used for estimating the potential risk. Regulatory agencies assume that ...

  Radiation, Ionizing, Ionizing radiation

Tritium Fact Sheet - Health Physics Society

Tritium Fact Sheet - Health Physics Society

hps.org

Ionizing radiation can be detected using instruments, but since tritium emits only a very weak beta particle it is very difficult to detect with normal radiation-detection instrumentation. In fact, the most common portable radiation-detection instruments, such as Geiger counters , are usually not capable of detecting tritium.

  Radiation, Ionizing, Tritium, Ionizing radiation

Chapter 2: Radiation protection concepts and principles

Chapter 2: Radiation protection concepts and principles

www.who.int

avoid unnecessary radiation dose before a patient undergoes medical imaging. Most radio-logic investigations are justified; however, in some instances, clinical evaluation or imaging modalities that do not use ionizing radiation could provide accurate diagnoses and eliminate the need for …

  Principles, Protection, Chapter, Concept, Radiation, Chapter 2, Ionizing, Ionizing radiation, Radiation protection concepts and principles

TABLE OF CONTENTS - New York State Department of Health

TABLE OF CONTENTS - New York State Department of Health

www.health.ny.gov

(2) "Absorbed dose" means the energy imparted by ionizing radiation per unit mass of irradiated material. The units of absorbed dose are the gray (Gy) and the rad. (3) "Accelerator-produced material" means any material made radioactive by a particle accelerator.

  Health, York, Department, States, Radiation, New york state department of health, Ionizing, Ionizing radiation

Ionizing and Non-Ionizing Radiation Study Guide - AOCOPM

Ionizing and Non-Ionizing Radiation Study Guide - AOCOPM

www.aocopm.org

Ionizing Radiation has sufficient energy to produce ions in matter at the molecular level. If that matter is a human significant damage can result including damage to DNA and denaturation of proteins. This is not to say that non-ionizing radiation can’t cause injury to humans but the injury is generally limited to

  Radiation, Ionizing, Ionizing radiation

Radiation Protection and Safety in Medical Uses of ... - IAEA

Radiation Protection and Safety in Medical Uses of ... - IAEA

www-pub.iaea.org

radiation protection and . safety in medical uses of ionizing radiation. specific safety guide. jointly sponsored by the. international atomic energy agency, international labour office, pan american health organization and world health organization …

  Protection, Medical, Safety, Uses, Radiation, Ionizing, Radiation protection and safety in medical, Radiation protection and, Safety in medical uses of ionizing radiation

Related search queries

Ionizing radiation, Radiation, Ionizing, Non-Ionizing Radiations, Tritium, Chapter 2: Radiation protection concepts and principles, New York State Department of Health, Radiation Protection and Safety in Medical, Radiation protection and . safety in medical uses of ionizing radiation