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355 research outputs found

Massive Star Formation

Author: A. Behrend
A. Noriega-Crespo
A.E. Wright
A.G. Gibb
B. Campbell
C. Alvarez
C. Alvarez
C. Pree
C. Pree de
C.F. McKee
C.G. Pree De
C.J. Davis
C.J. Davis
C.J. Lada
C.M. Walmsley
D. Buren Van
D. Buren Van
D. Hollenbach
D. Jaffe
D. Schertl
D.O.S. Wood
D.S. Shepherd
F. Palla
F.D. Kahn
F.H. Shu
G. Garcia-Segura
G. Tenorio-Tagle
G. Tofani
H. Beuther
H. Beuther
H.W. Yorke
I.A. Bonnell
J. Franco
J. Franco
J. Franco
J. Franco
J. Hatchell
J. Jijina
J. Martí
J. Martí
J. Martí
J. Martín-Pintado
J. Solf
J.C. Bunn
J.E. Drew
J.E. Drew
J.E. Dyson
J.E. Dyson
J.E. Dyson
J.E. Dyson
J.H. Bieging
J.L. Turner
J.M. Acord
J.M. Meyer
K. Tomisaka
K.-T. Kim
K.-T. Kim
L.F. Rodríguez
L.G. Mundy
M. Felli
M. Simon
M.A. Trinidad
M.G. Hoare
M.G. Hoare
M.G. Hoare
M.G. Wolfire
M.P. Redman
M.P. Redman
M.R Krumholz
M.R. Krumholz
N. Ridge
N.A. Patel
P. Höflich
P. Norberg
P.A. Bernasconi
P.R. Schwartz
R. Banerjee
R. Diaz-Miller
R. Franco-Hernández
R. Indebetouw
R. Kippenhahn
R. Plume
R.B. Larson
R.B. Larson
R.J.R. Williams
R.K. Prinja
S. Curiel
S. Kurtz
S. Terebey
S.A. Sim
S.E. Kurtz
S.E. Kurtz
S.E. Kurtz
S.E. Kurtz
S.J. Arthur
T. Nakano
Y. Oasa
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2007
Field of study

This chapter reviews progress in the field of massive star formation. It focuses on evidence for accretion and current models that invoke high accretion rates. In particular it is noted that high accretion rates will cause the massive young stellar object to have a radius much larger than its eventual main sequence radius throughout much of the accretion phase. This results in low effective temperatures which may provide the explanation as to why luminous young stellar objects do not ionized their surroundings to form ultra-compact H II regions. The transition to the ultra-compact H II region phase would then be associated with the termination of the high accretion rate phase. Objects thought to be in a transition phase are discussed and diagnostic diagrams to distinguish between massive young stellar objects and ultra-compact H II regions in terms of line widths and radio luminosity are presented.Comment: 21 pages, 6 figures, chapter in Diffuse Matter from Star Forming Regions to Active Galaxies - A Volume Honouring John Dyson, Edited by T.W. Hartquist, J. M. Pittard, and S. A. E. G. Falle. Series: Astrophysics and Space Science Proceedings. Springer Dordrecht, 2007, p.6

arXiv.org e-Print Archive

Crossref

A historical perspective on the discovery of statins

Author: A. Endo
A. Endo
A. Endo
A. Endo
A. Endo
A. Endo and L. Rothfield
A. Endo and L. Rothfield
A. Keys
A. Keys C. Aravanis, H.W. Blackbur
A. Keys J.T. Anderson, F. Fidanza,
A.K. Khachadurian
D. Steinberg J. Avigan and E.B. Fe
D.M. Dietschy and J.D. Wilson
D.M. Dietschy and M.D. Siperstein
D.M. Tennent H. Siegel, M.E. Zanet
ENDO AKIRA
ENDO AKIRA
ENDO AKIRA
F. Lynen
H. Goldfine and D.H. Vance
H. Mabuchi T. Haba, R. Tatami, S.
H. Mabuchi T. Sakai, A. Yoshimura,
H.J. Knauss J.W. Porter and G. Was
J. Avigan and D. Steinberg
J. Avigan D. Steinberg, M.J. Thomp
J. Shepherd S.M. Cobbe, I. Ford, C
J.L. Goldstein and H.S. Brown
J.M. Dietschy and J.D. Wilson
J.M. Dietschy and J.D. Wilson
J.M. Dietschy and J.D. Wilson
J.W. Cornforth and G. Popj&aacu
J.W. Gofman
J.W. Gofman F.T. Lindgren and H. E
J.W. Gofman F.T. Lindgren, H. Elli
M.D. Siperstein and V.M. Fagan
M.S. Brown S.E. Dana and J.L. Gold
M.S. Brown S.E. Dana and J.L. Gold
N. Anitschkow
N.L.R. Bucher
R.B Fears D.H Richards and H. Ferr
S. Goldfarb and H.C. Pitot
S.S. Bergen Jr., T.B. Van Itallie,
T.R. Blohm and R.D. MacKenzie
W.B. Kannel T.R. Dawber, A. Kagan,
Y. Tsujita M. Kuroda, K. Tanzawa,
Publication venue: The Japan Academy
Publication date: 01/01/2010
Field of study

Cholesterol is essential for the functioning of all human organs, but it is nevertheless the cause of coronary heart disease. Over the course of nearly a century of investigation, scientists have developed several lines of evidence that establish the causal connection between blood cholesterol, atherosclerosis, and coronary heart disease. Building on that knowledge, scientists and the pharmaceutical industry have successfully developed a remarkably effective class of drugs—the statins—that lower cholesterol levels in blood and reduce the frequency of heart attacks

Crossref

PubMed Central

The present and future of QCD

Author: Achenbach P.
Adhikari D.
Afanasev A.
Afzal F.
Aidala C.A.
Al-bataineh A.
Almaalol D.K.
Amaryan M.
Androić D.
Armstrong W.R.
Arratia M.
Arrington J.
Asaturyan A.
Aschenauer E.C.
Atac H.
Avakian H.
Averett T.
Bai X.
Barish K.N.
Barnea N.
Basar G.
Battaglieri M.
Baty A.A.
Bautista I.
Bazilevsky A.
Beattie C.
Behera S.C.
Bellini V.
Bellwied R.
Benesch J.F.
Benmokhtar F.
Bernardes C.A.
Bernauer J.C.
Bhatt H.
Bhatta S.
Boer M.
Boettcher T.J.
Bogacz S.A.
Bossi H.J.
Brandenburg J.D.
Brash E.J.
Briceño R.A.
Briscoe W.J.
Brodsky S.J.
Brown D.A.
Burkert V.D.
Caines H.
Cali I.A.
Camacho C. Munoz
Camsonne A.
Carman D.S.
Caylor J.
Cerci D. Sunar
Cerci D.S.
Cerci S.
Chatterjee S.
Chen J.P.
Chen Y.
Chen Y.-C.
Chien Y.-T.
Chou P.-C.
Chu X.
Chudakov E.
Cline E.
Cloët I.C.
Cole P.L.
Connors M.E.
Constantinou M.
Cosyn W.
Cruz-Torres R.
D'Alesio U.
Da Costa H. Pereira
da Silva C.
Davoudi Z.
Dean C.T.
Dean D.J.
Demarteau M.
Deshpande A.
Detmold W.
Deur A.
Devkota B.R.
Dhital S.
Diefenthaler M.
Dobbs S.
Dong X.
Dotel R.
Dow K.A.
Downie E.J.
Drachenberg J.L.
Dumitru A.
Dunlop J.C.
Dupre R.
Durham J.M.
Dusa S. Covrig
Dutta D.
Döring M.
Edwards R.G.
Ehlers R.J.
Elaasar M.
Elouadrhiri L.
Engelhardt M.
Ent R.
Esumi S.
Evdokimov O.
Eyser O.
Fanelli C.
Fassi L. El
Fatemi R.
Fernando I.P.
Flor F.A.
Fomin N.
Frawley A.D.
Frederico T.
Fries R.J.
Gal C.
Gamage B.R.
Gamberg L.
Gao H.
Gaskell D.
Gayoso C. Ayerbe
Geurts F.
Ghandilyan Y.
Ghimire N.
Gilman R.
Gleason C.
Gnanvo K.
Gothe R.W.
Greene S.V.
Grießhammer H.W.
Grossberndt S.K.
Grube B.
Hackett D.C.
Hague T.J.
Hakobyan H.
Hansen J.-O.
Hatta Y.
Hattawy M.
Havener L.B.
Hen O.
Henry W.
Higinbotham D.W.
Hobbs T.J.
Hodges A.M.
Holmstrom T.
Hong B.
Horn T.
Howell C.R.
Huang H.Z.
Huang M.
Huang S.
Huber G.M.
Hyde C.E.
Isupov E.L.
Jacobs P.M.
Jalilian-Marian J.
Jentsch A.
Jheng H.
Ji C.-R.
Ji X.
Jia J.
Jones D.C.
Jones M.K.
Joosten S.
Kalantarians N.
Kalicy G.
Kang Z.B.
Karthein J.M.
Keller D.
Keppel C.
Khachatryan V.
Kharzeev D.E.
Kim H.
Kim M.
Kim Y.
King P.M.
Kinney E.
Klein S.R.
Ko H.S.
Koch V.
Kohl M.
Kovchegov Y.V.
Krintiras G.K.
Kubarovsky V.
Kuhn S.E.
Kumar K.S.
Kutz T.
Lajoie J.G.
Lauret J.
Lavrukhin I.
Lawrence D.
Lee J.H.
Lee K.
Lee S.
Lee Y.-J.
Leiton A.G. Stahl
Li S.
Li W.
Li Xiaqing
Li Xuan
Liao J.
Lin H.-W.
Lisa M.A.
Liu K.-F.
Liu M.X.
Liu T.
Liuti S.
Liyanage N.
Llatas M. Chamizo
Llope W.J.
Loizides C.
Longo R.
Lorenzon W.
Lunkenheimer S.
Luo X.
Ma R.
McKinnon B.
Meekins D.G.
Mehtar-Tani Y.
Melnitchouk W.
Metz A.
Meyer C.A.
Meziani Z.-E.
Michaels R.
Michel J.K.L.
Milner R.G.
Mkrtchyan H.
Mohanmurthy P.
Mohanty B.
Mokeev V.I.
Moon D.H.
Mooney I.A.
Morningstar C.
Morrison D.P.
Mukherjee S.
Mulligan J.
Murray M.J.
Müller B.
Nadeeshani S.A.
Nadel-Turonski P.
Nam J.D.
Nattrass C.E.
Nijs G.
Noronha J.
Noronha-Hostler J.
Novitzky N.
Nycz M.
Olness F.I.
Osborn J.D.
Pak R.
Pandey B.
Paolone M.
Papandreou Z.
Paquet J.-F.
Park S.
Paschke K.D.
Pasquini B.
Pasyuk E.
Patel T.
Patton A.
Paudel C.
Peng C.
Peng J.C.
Perepelitsa D.V.
Peters M.J.
Petreczky P.
Pisarski R.D.
Pitonyak D.
Ploskon M.A.
Posik M.
Poudel J.
Pradhan R.
Prokudin A.
Pruneau C.A.
Puckett A.J.R.
Pujahari P.
Putschke J.
Pybus J.R.
Qiu J.-W.
Quijada J.A. Murillo
Rajagopal K.
Ratti C.
Read K.F.
Reed R.
Richards D.G.
Riedl C.
Ringer F.
Rinn T.
Roche J.
Rodas A.
Roland G.
Romero-López F.
Rossi P.
Rostomyan T.
Ruan L.
Ruimi O.M.
Saha N.R.
Sahoo N.R.
Sakaguchi T.
Salazar F.
Salgado C.W.
Salmè G.
Salur S.
Santiesteban S.N.
Sargsian M.M.
Sarsour M.
Sato N.
Satogata T.
Sawada S.
Scheihing-Hitschfeld B.
Schenke B.
Schindler S.T.
Schmidt A.
Schäfer T.
Seidl R.
Shabestari M.H.
Shanahan P.E.
Shen C.
Sheng T.-A.
Shepherd M.R.
Sickles A.M.
Sievert M.D.
Smith K.L.
Song Y.
Sorensen A.
Souder P.A.
Sparveris N.
Srednyak S.
Stasto A.M.
Steinberg P.
Stepanyan S.
Stephanov M.
Stevens J.R.
Stewart D.J.
Stewart I.W.
Stojanovic M.
Strakovsky I.
Strauch S.
Strickland M.
Suresh M.
Surrow B.
Syritsyn S.
Szczepaniak A.P.
Tadepalli A.S.
Takaki J.D. Tapia
Tang A.H.
Tarnowsky T.J.
Tawfik A.N.
Taylor M.I.
Tennant C.
Thiel A.
Thomas D.
Tian Y.
Timmins A.R.
Tribedy P.
Tu Z.
Tuo S.
Ullrich T.
Umaka E.
Upton D.W.
Vary J.P.
Velkovska J.
Venugopalan R.
Vijayakumar A.
Vitev I.
Vogelsang W.
Vogt R.
Vossen A.
Voutier E.
Vovchenko V.
Walker-Loud A.
Wang F.
Wang J.
Wang X.
Wang X.-N.
Weinstein L.B.
Wenaus T.J.
West J. Rittenhouse
Weyhmiller S.
Wissink S.W.
Wojtsekhowski B.
Wong C.P.
Wood M.H.
Wunderlich Y.
Wyslouch B.
Xiao B.W.
Xie W.
Xiong W.
Xu N.
Xu Q.H.
Xu Z.
Yaari D.
Yao X.
Ye Z.
Ye Z.H.
Yero C.
Yuan F.
Zajc W.A.
Zhang C.
Zhang J.
Zhao F.
Zhao Y.
Zhao Z.W.
Zheng X.
Zhou J.
Zurek M.
Publication venue: Elsevier
Publication date: 01/07/2024
Field of study

This White Paper presents an overview of the current status and future perspective of QCD research, based on the community inputs and scientific conclusions from the 2022 Hot and Cold QCD Town Meeting. We present the progress made in the last decade toward a deep understanding of both the fundamental structure of the sub-atomic matter of nucleon and nucleus in cold QCD, and the hot QCD matter in heavy ion collisions. We identify key questions of QCD research and plausible paths to obtaining answers to those questions in the near future, hence defining priorities of our research over the coming decades

Carolina Digital Repository

Physical Processes in Star Formation

Author: A. Alexakis
A. Beresnyak
A. Beresnyak
A. Brandenburg
A. Brandenburg
A. Dalgarno
A. Dalgarno
A. Dutrey
A. Favre
A. Fletcher
A. Khintchine
A. Kolmogorov
A. Lazarian
A. Lees
A. Marcowith
A. Mittal
A. Palau
A. Pardi
A. Schruba
A. Stacy
A. Stacy
A. Sternberg
A. Sternberg
A. Toomre
A. Whitworth
A. Whitworth
A.A. Abdo
A.D. Slyz
A.E. Glassgold
A.E. Glassgold
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G. Kritsuk
A.G.G.M. Tielens
A.G.G.M. Tielens
A.J. Richings
A.K. Leroy
A.M. Obukhov
A.M. Yaglom
A.N. Kolmogorov
A.P. Whitworth
A.R. Bell
A.S. Hill
A.W. Cook
A.W. Strong
B. Commerçon
B. Commerçon
B. Godard
B. Müller
B. Reipurth
B.D. Oppenheimer
B.D.G. Chandran
B.F. Madore
B.G. Elmegreen
B.G. Elmegreen
B.M. Gaensler
B.T. Chu
B.T. Draine
B.T. Draine
B.T. Draine
B.T. Draine
B.T. Draine
B.T. Draine
C. Bacchini
C. Chiuderi
C. Elphick
C. Federrath
C. Federrath
C. Heiles
C. Schwarz
C.A. Faucher-Giguère
C.C. Hayward
C.E. Hansen
C.F. Lee
C.F. McKee
C.F. McKee
C.F. McKee
C.F. von Weizsäcker
C.G. Kim
C.J. Cesarsky
C.J. Cyganowski
C.J. Hansen
C.J. Lada
C.J. Lada
C.M. Brunt
C.M. Brunt
C.M. Brunt
C.M. Leung
D. Arzoumanian
D. Biskamp
D. Caprioli
D. Ceverino
D. Hollenbach
D. Mihalas
D. Porter
D. Seifried
D. Seifried
D. Zhao
D.A. Donzis
D.E. Osterbrock
D.H. Porter
D.J. Leverett
D.J. Price
D.R. Flower
D.S. Shepherd
E. Bressert
E. Bron
E. Choi
E. Churazov
E. Churchwell
E. Congiu
E. Daddi
E. Falgarone
E. Feireisl
E. Feireisl
E. Schinnerer
E.B. Jenkins
E.C. Ostriker
E.C. Ostriker
E.C. Ostriker
E.E. Salpeter
E.F. van Dishoeck
E.F. van Dishoeck
E.G. Zweibel
E.G. Zweibel
E.J. Mierkiewicz
E.J. Weber
E.L.O. Bakes
E.N. Parker
E.T. Whelan
F. Aharonian
F. Aharonian
F. Aharonian
F. Bigiel
F. Hoyle
F. Hoyle
F. Nakamura
F.F.S. van der Tak
F.H. Shu
F.H. Shu
F.H. Shu
F.H. Shu
F.L. Schöier
F.Z. Molina
G. Chabrier
G. Falkovich
G. Falkovich
G. Kowal
G. Liu
G. Momferratos
G. Pelletier
G.B. Field
G.B. Field
G.B. Rybicki
G.F. Krymskii
G.K. Batchelor
G.K. Batchelor
G.L. Eyink
G.L. Eyink
G.M. Webb
H. Abgrall
H. Aluie
H. Aluie
H. Aluie
H. Helmholtz
H. Koyama
H. Masunaga
H. Miura
H. Rogers
H. Susa
H.J. Habing
H.J.G.L.M. Lamers
H.W. Yorke
I. Baraffe
I.A. Bonnell
I.A. Grenier
I.V. Sytine
J. Ballesteros-Paredes
J. Bally
J. Bally
J. Bouvier
J. Fleck
J. Kainulainen
J. Kim
J. Le Bourlot
J. Lequeux
J. Ostriker
J. Schaye
J. Skilling
J. Sun
J. Wang
J. Wang
J. Wang
J. Wang
J. Wang
J. Wang
J. Wang
J. Wiener
J. Wurster
J. Zrake
J.C. Weingartner
J.C. Weingartner
J.D. Fiege
J.E. Dale
J.E. Moyal
J.E. Roser
J.G. Kim
J.H. Black
J.H. Black
J.H. Jeans
J.H. Orkisz
J.J. Carroll
J.L. Pineda
J.L. Ward
J.M. Stone
J.M. Stone
J.M.D. Kruijssen
J.M.D. Kruijssen
J.M.D. Kruijssen
J.M.D. Kruijssen
J.M.D. Kruijssen
J.P. Graham
J.S. Hall
J.S. Mathis
J.S. Vink
K. Ebinger
K. Kreckel
K. Pattle
K. Subramanian
K. Tomida
K.E.I. Tanaka
K.M. Ferrière
L. Hartmann
L. Onsager
L. Pan
L. Pan
L. Richardson
L. Spitzer Jr.
L.B. Lucy
L.D. Landau
L.F. Rodriguez
L.M. Haffner
L.S.G. Kovásznay
M. Ackermann
M. Chevance
M. Galametz
M. Gong
M. Haverkorn
M. Heyer
M. Heyer
M. Jura
M. Micic
M. Morris
M. Padovani
M. Padovani
M. Padovani
M. Padovani
M. Schmidt
M. Tegmark
M.A. de Avillez
M.A. Miville-Deschênes
M.C. Begelman
M.E. Orr
M.G. Burton
M.G. Wolfire
M.G. Wolfire
M.H. Heyer
M.J. Lighthill
M.J. Rees
M.M. Mac Low
M.M. Mac Low
M.M. Mac Low
M.N. Machida
M.N. Machida
M.R. Joung
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.R. Krumholz
M.V. Penston
N. Andrés
N. Andrés
N. Andrés
N. Indriolo
N. Schneider
N. Smith
N. Wiener
N.J. Shaviv
N.Y. Gnedin
O. Gnat
P. Caselli
P. Chassaing
P. Chassaing
P. Girichidis
P. Girichidis
P. Girichidis
P. Girichidis
P. Girichidis
P. Goldreich
P. Grete
P. Hennebelle
P. Hennebelle
P. Hennebelle
P. Hennebelle
P. Hennebelle
P. Kroupa
P. Padoan
P. Padoan
P. Padoan
P. Sagaut
P. Wang
P.A. Davidson
P.A. Mazzali
P.A.R. Ade
P.C. Clark
P.C. Clark
P.C. Clark
P.C. van der Kruit
P.F. Goldsmith
P.F. Goldsmith
P.F. Hopkins
P.F. Hopkins
P.H. Diamond
P.K. Yeung
P.K. Yeung
P.M.W. Kalberla
P.N. Foster
P.S. Li
P.W. Atkins
Q. Zhang
R. Banerjee
R. Beck
R. Beck
R. Beck
R. Benzi
R. Cen
R. Cen
R. Diehl
R. Ebert
R. Feldmann
R. Genzel
R. Gredel
R. Gredel
R. Herrera-Camus
R. Kulsrud
R. Minkowski
R. Visser
R. Wagner
R.A. Antonia
R.A. Gutermuth
R.A. Piontek
R.B. Larson
R.B. Larson
R.B. Larson
R.C. Kennicutt
R.C. Kennicutt Jr.
R.C. Kennicutt Jr.
R.C. Kennicutt Jr.
R.D. Blandford
R.D. Blandford
R.H. Kraichnan
R.J. Gould
R.J. Reynolds
R.J. Reynolds
R.L. Snell
R.M. Crutcher
R.M. Crutcher
R.M. Crutcher
R.N. Henriksen
R.P. Kraft
R.P.C. Wiersma
R.S. Klessen
R.S. Klessen
R.S. Klessen
R.S. Somerville
S. Ames
S. Banerjee
S. Banerjee
S. Banerjee
S. Banerjee
S. Banerjee
S. Boldyrev
S. Chandrasekhar
S. Chen
S. Dib
S. Galtier
S. Galtier
S. Geen
S. Hirano
S. Hocuk
S. Jagannathan
S. Kida
S. Kida
S. Sarkar
S. Takahashi
S. van Loo
S. Veilleux
S. Walch
S.C.O. Glover
S.C.O. Glover
S.C.O. Glover
S.C.O. Glover
S.C.O. Glover
S.C.O. Glover
S.J. Smartt
S.K. Lele
S.K. Walch
S.M.R. Jeffreson
S.N. Longmore
S.S. Prasad
S.S.R. Offner
S.S.R. Offner
S.S.R. Offner
S.S.R. Offner
S.W. Jha
S.W. Stahler
T. de Karman
T. Hosokawa
T. Inoue
T. Inoue
T. Naab
T. Nagai
T. Nakano
T. Peters
T. Peters
T. Peters
T.C. Mouschovias
T.C. Mouschovias
T.G. Bisbas
T.G. Bisbas
T.G. White
T.H. Greif
T.H. Troland
T.H. Troland
T.L. Bourke
T.L. Stephens
T.P. Robitaille
T.P. Stecher
U. Frisch
U. Maio
V. Heesen
V.A. Semenov
V.A. Semenov
W. Langer
W. Schmidt
W. Schmidt
W.A. Hiltner
W.B. Bonnor
W.B. Latter
W.I. Axford
X. Lu
X.N. Bai
Y. Fukui
Y. Zhang
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2020
Field of study

© 2020 Springer-Verlag. The final publication is available at Springer via https://doi.org/10.1007/s11214-020-00693-8.Star formation is a complex multi-scale phenomenon that is of significant importance for astrophysics in general. Stars and star formation are key pillars in observational astronomy from local star forming regions in the Milky Way up to high-redshift galaxies. From a theoretical perspective, star formation and feedback processes (radiation, winds, and supernovae) play a pivotal role in advancing our understanding of the physical processes at work, both individually and of their interactions. In this review we will give an overview of the main processes that are important for the understanding of star formation. We start with an observationally motivated view on star formation from a global perspective and outline the general paradigm of the life-cycle of molecular clouds, in which star formation is the key process to close the cycle. After that we focus on the thermal and chemical aspects in star forming regions, discuss turbulence and magnetic fields as well as gravitational forces. Finally, we review the most important stellar feedback mechanisms.Peer reviewedFinal Accepted Versio